ARTICLE 1 Cited in · Rozprawa doktorska, PG Gdańsk 2008 14.) R. L. Hudson Infrared spectra and band strengths of CH3SH, an interstellar molecule PHYS. CHEM. CHEM. PHYS. 18 (2016)

ARTICLE 1

Absolute electron-scattering total cross-section measurements for methanethiol molecule,

CH3SH, from 0.6 to 250 eV

Cz. Szmytkowski, G. Kasperski and P. Możejko

J. PHYS. B 28 (1995) L629-L632

Cited in:

1.) G.P. Karwasz, R.S. Brusa, and A. Zecca

One century of experiments on electron-atom and molecule scattering: A critical review of

integral cross-sections III. Hydrocarbons and halides

RIV. NUOVO CIMENTO 24: 1-101 (2001)

2.) B.K. Decker, N.G. Adams, and L.M. Babcock

Gas-phase reactivity of HS2H+ and S2

+: an investigation of the gas basicity and proton

affinity of HS2

INT. J. MASS SPECTROM. 187: 727-743 (1999)

3.) Jiang Y.H., Sun J.F., Wan L.D.

Simple model for the calculation of total cross sections for electron scattering from

polyatomic molecules

J. PHYS. B: 5025-5032 (1997)

4.) García G. and Manero F.

Total cross sections for electron scattering by NH3 molecules in the energy range 300 -

5000 eV

J. PHYS. B 29: 4017-4026 (1996)

5.) B. Hess and N. F. A. van der Vegt

Hydration Thermodynamic Properties of Amino Acid Analogues: A Systematic

Comparison of Biomolecular Force Fields and Water Models

J. PHYS. CHEM. B, 110, 17616-17626 (2006)

6.) Fabio Bussolotti, Maria Grazia Betti, and Carlo Mariani

Anchoring methane thiol on Cu(100) in different structural configurations: Electronic

state dispersion

PHYS. REV. B 74, 125422 (2006)

7.) Landolt-Bornstein Numerical Data and Functional Relationships in Science and

Technology Group I: Elementary Particles, Nuclei and Atoms. Vol 17: Photon and Electron

Interactions with Atoms, Molecules and Ions. Subvolume C: Interactions of Photons and

Electrons with Molecules. Ed. Y Itikawa Springer (2003)

8.) Thaminda Wijeratne

Total Electron Scattering Cross Sections of CH4, NH3, PH3 and SiH4 Molecules for

Intermediate Energy Electrons

M.Sc. Thesis Baylor University (2004)

9.) G. G. Raju

Gaseous Electronics. Tables, Atoms and Molecules

CRC Press 2011

10.) U. Hohm

Experimental static dipole-dipole polarizabilities of molecules

J. MOL. STRUCTURE 1054: 282-292 (2013)

11.) Ch. Limbachiya, M. Vinodkumar, M. Swadia, A. Barot

Electron impact total cross section calculations for CH3SH (methanethiol) from threshold

to 5 keV

MOL. PHYS. 112: 101-106 (2014)

12.) Ke-dong Wang and Ju Meng

Elastic Low-Energy Electron Collisions with Methanethiol

CHIN. J. CHEM. PHYS. 28: 716 (2015)

13.) Alicja Domaracka

Całkowite przekroje czynne na rozpraszanie elektronów na drobinach

wieloatomowych

Rozprawa doktorska, PG Gdańsk 2008

14.) R. L. Hudson

Infrared spectra and band strengths of CH3SH, an interstellar molecule

PHYS. CHEM. CHEM. PHYS. 18 (2016) 25756-25763

ARTICLE 2

Electron collisions with germane (GeH4) molecules. Absolute total cross section

measurements from 0.75 to 250 eV

P. Możejko, G. Kasperski, and Cz. Szmytkowski

J. PHYS. B 29 (1996) L571-L575

Cited in:

1.) Karwasz G.P., Brusa R.S., Zecca A.




2.) Szmytkowski Cz., Ptasinska-Denga E.

Fluorination effects in electron-scattering processes - comparative study

VACUUM 63: 545-548 (2001)


One century of experiments on electron-atom and molecule scattering: a critical review

of integral cross-sections II. - Polyatomic molecules


4.) Lee M.T., Brescansin L.M., Machado L.E.

Elastic scattering of electrons by GeH4 in the low- and intermediate-energy range

PHYS. REV. A 59: 1208-1215 (1999)

5.) Bettega M.H.F., Varella M.T. do N., and Lima M.A.P.

Polarization effects in the elastic scattering of low-energy electrons by HX4 (X = C, Si,

Ge, Sn, Pb)

PHYS. REV. A: 68, 012706 (2003)

6.) Joshipura K.N. , Vinodkumar, Limbachiya, C.G. and Antony B.K.

Calculated total cross sections of electron-impact ionization and excitations in

tetrahedral XY4 and SF6 molecules

PHYS. REV. A: 69, 022705 (2004) 7.) Szmytkowski Cz., Piotrowicz M., Domaracka A., Kłosowski Ł., Ptasińska-Denga E.,

Kasperski G.,

Electron collisions with trifluorides: BF3 and PF3 molecules

J. CHEM. PHYS. 121: 1790-1795 (2004)

8.) G.G. Raju

Gaesous Electronics: Theory and Practice

CRC (2005)


Technology Group I: Elementary Particles, Nuclei and Atoms. Vol 17: Photon and

Electron Interactions with Atoms, Molecules and Ions. Subvolume C: Interactions of

Photons and Electrons with Molecules. Ed. Y Itikawa Springer (2003)

10.) Karwasz G P

Pomiary całkowitych przekrojów czynnych na rozpraszanie elektronów w gazach

WSP Słupsk (1997)

11.) International Bulletin on Atomic and Molecular Data for Fusion No. 53 (1997) Ed. J.A.

Stephens, International Atomic Energy Agency (Vienna 1997)

12.) G. Kasperski

Wyznaczanie całkowitych przekrojów czynnych na rozpraszanie elektronów na wybranych

drobinach wieloatomowych


13.) M. Vinodkumar, Ch. Limbachiya, K. Korot , K.N. Joshipura, N. Mason

Electron impact calculations of total and ionization cross-sections for Germanium

Hydrides (GeHX; X = 1–4) and Digermane, Ge2H6

Int. J. of Mass Spectrom. 273 (2008) 145–150

14.) Raju G G

Scaling of resonance in total scattering cross section in gases

IEEE Transactions on Dielectrics and Electrical Insulation 16 (2009) 1199

15.) G. G. Raju


CRC Press 2011

16.) Mandeep Kaur, Gurpreet Kaur, Arvind Kumar Jain, Harsh Mohan, Parjit S. Singh, Sunita

Sharma, and K. L. Baluja

Scattering cross sections for collisions of electrons with tetrahedral molecules in the

energy range 0.1–100 eV: CH4, SiH4, and GeH4

Phys. Rev. A 97 (2018) 052711

17.) Pankaj Verma, Suvam Singh, Rahla Naghma, Bobby Antony

Electron induced scattering from germane

EUR. PHYS. J. D 72 (2018) 207

18.) K.N. Joshipura, N. Mason

Atomic-Molecular Ionization by Electron Scattering

Cambridge University Press 2019

ARTICLE 3

Absolute total cross section measurements for electron scattering on benzene molecules

P. Możejko, G. Kasperski, Cz. Szmytkowski, G.P. Karwasz, R.S. Brusa, and A. Zecca

CHEM. PHYS. LETT. 257 (1996) 309-313

Cited in:

1.) Field D, Ziesel J P, Lunt S L, Parthasarathy R, Suess L, Hill S B, Dunning F B, Lucchese R

R, Gianturco F A

Very low-energy electron scattering from benzene: experiment and theory

J. PHYS. B 34: 4371-4381 (2001)

2.) Karwasz G P, Brusa R S, Zecca A

One century of experiments on electron-atom and molecule scattering: A critical review

of integral cross-sections III. Hydrocarbons and halides


3.) Szmytkowski Cz, Ptasińska-Denga E


VACUUM 63: 545-548 (2001)

4.) Cho H, Gulley R J, Sunohara K, et al

Elastic electron scattering from C6H6 and C6F6

J. PHYS. B 34: 1019-1038 (2001)

5.) Jiang Y H, Sun J F, Wan L D

Additivity rule for the calculation of electron scattering from polyatomic molecules

PHYS. REV. A 62 : 062712 (2000)

6.) Bettega M H F, Winstead C, McKoy V

Elastic scattering of low-energy electrons by benzene

J. CHEM. PHYS. 112: 8806-8812 (2000)

7.) McCorkle D L, Ding W X, Ma C Y, et al

Dissociation of benzene in a pulsed glow discharge

J. APPL. PHYS. 86: 3550-3557 (1999)

8.) Gulley R J, Buckman S J

Absolute elastic electron scattering from benzene

J. PHYS. B 32: L405-L409 (1999)

9.) Karwasz G P, Brusa R S, Piazza A, et al.

Total cross sections for electron scattering on chloromethanes: Formulation of the

additivity rule

PHYS. REV. A 59: 1341-1347 (1999)

10.) Gulley R J, Lunt S L, Ziesel J P, et al

Very low energy electron scattering from benzene and deuterated benzenes

J. PHYS. B 31: 2735-2751 (1998)

11.) Gianturco F A, Lucchese R R

One-electron resonances and computed cross sections in electron scattering from the

benzene molecule

J. CHEM. PHYS. 108: 6144-6159 (1998)

12.) Szmytkowski Cz, Kwitnewski S

Electron scattering on C3H6 isomers

J. PHYS. B 35: 2613-2623 (2002)

13.) Ariyasinghe W M, Powers D

Total electron scattering cross sections of CH4, C2H2, C2H4, and C2H6 in the energy range

200-1400 eV

PHYS. REV. A 66: 052716 (2002)

14.) Kwitnewski S, Ptasińska-Denga E, Szmytkowski Cz

Relationship between electron-scattering grand total and ionization total cross sections

RADIAT. PHYS. CHEM. 68: 169-174 (2003)

15.) Sun J, Du C, Liu Y

Total cross sections for electron scattering on polyatomic molecules—considering two

different shielding effects

PHYS. LETT. A 314: 150-155 (2003)

16.) Makochekanwa C, Sueoka O, Kimura M

Comparative study of electron and positron scattering from benzene (C6H6) and

hexafluorobenzene (C6F6) molecules

PHYS. REV. A 68: 032707 (2003) 17.) Blanco F, García G

Screening corrections for calculation of electron scattering from polyatomic molecules

PHYS. LETT. A 317: 458–462 (2003)


Isomer effects on the total cross section for electron scattering from C4F6 molecules

J. PHYS. B 36: 4865-4873 (2003)

19.) Boechat-Roberty H M, Rocco M L M, Lucas C A, de Souza G G B

Absolute differential cross sections for elastic and inelastic electron scattering from

benzene with 1 keV impact energy

J. PHYS. B 37: 1467–1476 (2004)

20.) Jiang C Q, Mohamed A A H, Stark R H, Yuan J H, Schoenbach KH

Removal of volatile organic compounds in atmospheric pressure air by means of direct

current glow discharges

IEEE TRANSACTIONS ON PLASMA SCIENCE 33: 1416-1425 (2005)

21.) Kalcher J,

Gas-phase stabilities of small anions

Annu. Rep. Prog. Chem., Sect. C, 149-189 (2001)

22.) Shi D H, Sun J F, Zhu Z L, Liu Y F, Yang X D

Modification potential method of calculating total cross sections of electrons scattering

from complex molecules C2H6, C2F6, C6H6 and C6F6 at 100 eV-5000 eV

CHINESE PHYSICS 15: 1278-1283 (2006)

23.) Blanco F, Garcia G

Calculated cross sections for electron elastic and inelastic scattering from DNA and

RNA Bases

PHYS. LETT. A 360: 707-712 (2007)

24.) Ariyasinghe W M, Wickramarachchi P, Palihawadana P

Total electron scattering cross sections of alkanes at intermediate energies

NIMB 259 841-846 (2007)

25.) Munoz A, Blanco F, Oller J C, Perez J M, Garcia, G

Energy deposition models at the molecular level in biological systems

ADVANCES IN QUANTUM CHEMISTRY 52: 21-57 2007





27.) Karwasz G P


WSP Słupsk (1997)

28.) G.P. Karwasz, A. Karbowski, Z. Idziaszek and R.S. Brusa

Total cross sections for positron scattering on benzene – angular resolution corrections

NUCLEAR INSTRUM. METHODS PHYS. RES. B 266 (2008) 471-477

29.) D.H. Shi, J.F. Sun, Y.F. Liu et al.

Geometric shielding correction approach for total cross sections of electron scattering by

C6H6, C6F6, C6H12, C6H14, C6F14, C8H16, C8H18 and C8F18 at 30-5000 eV

J. PHYS. B 41 (2008) 025205


Total Electron Scattering Cross Sections of CH4, NH3, PH3 and SiH4 Molecules for

Intermediate Energy Electrons


31.) G. Kasperski




32.) Kwitnewski S

Wpływ konfiguracji przestrzennej drobin na całkowity przekrój czynny na rozpraszanie

elektronów


33.) Sanches I P, Sugohara R T, Rosani L, Lee M-T and Iga I

Cross sections for elastic electron collisions on two hydrocarbon compounds: n-butane

and benzene in the intermediate-energy range

J. PHYS. B 41 185202 (2008)

34.) Shi D-H, Sun J-F, Liu Y-F, Zhu Z-L, Ma H

Total cross sections of electron scattering by large molecules C4H8O, C5H10O2, C6H5CH3

and C4H8O2 at 50-5000 eV

ACTA PHYSICA SINICA 57 7612 (2008)

35.) Raju G G



36.) Niu Dong-mei, Li Hai-yang, Luo Xiao-lin, Xiao Xue

Wavelength dependences in generation of highly charged ions by intense nanosecond

laser-cluster interaction

HIGH POWER LASER AND PARTICLE BEAMS 19 (2007) 854-858

37.) F. Blanco, J. Rosado, A Illana, G. Garcia

Comparison of two screening corrections to the additivity rule for the calculation of

electron scattering from polyatomic molecules

PHYS. LETT. A 374 (2010) 4420-4424

38.) H. Kato, M. Hoshino, H. Tanaka, P. Limao-Vieira, O. Ingolfsson, L. Campbell and M.J.

Brunger

A study of electron scattering from benzene. Excitation of the 1B1u, 2E2g and 1E1u

electronic states

J. CHEM. PHYS. 134: 134308 (2011)

39.) G. G. Raju


CRC Press 2011

40.) G.L.C. de Souza, A.S. dos Santos, R.R. Lucchese, L.E. Machado, L.M. Brescansin, H.V.

Manini, I. Iga, M.-T. Lee

Theoretical investigation on electron scattering by benzene in the intermediate-energy

range

CHEM. PHYS. 393: 19-24 (2012)

41.) W. Y. Baek, A. Arndt, M. U. Bug, H. Rabus, and M. Wang

Total electron-scattering cross sections of pyrimidine

PHYSICAL REVIEW A 88 (2013) 032702

42.) A.G. Sanz, M.C. Fuss, F. Blanco, F. Carelli, F. Sebastianelli, F.A. Gienturco, G. Garcia

Electron scattering cross sections from antracene over a broad energy range (0.00001-

10000 eV)

APPL. RADAIAT. ISOTOPES 83 (2014) 68-76

43.) R.F da Costa, E.M. de Oliveira, M.H.F. Bettega, M.T. do N. Varella, D.B. Jones, M.J.

Brunger, F. Blanco, R. Colmenares, P. Limao-Vieira, G. Garcia, and M.A.P. Lima

Electron collisions with phenol: Total, integral, differential, and momentum transfer

cross sections and the role of multichannel coupling effects on the elastic channel

JOURNAL OF CHEMICAL PHYSICS 142 (2015) 104304

44.) Justine Houplin, Céline Dablemont, Leo Sala, Anne Lafosse, and Lionel Amiaud

Electron Processing at 50 eV of Terphenylthiol Self-Assembled Monolayers:

Contributions of Primary and Secondary Electrons

LANGMUIR 31 (2015) 13528–13534



wieloatomowych


46.) Suvam Singh, Rahla Naghma, Jaspreet Kaur and Bobby Antony

Calculation of total and ionization cross sections for electron scattering by primary

benzene compounds

J. CHEM. PHYS. 145 (2016) 034309

47.) Meera Devi Gurung and W.M. Ariyasinghe

Total electron scattering cross sections of molecules containing H, C, N, O and F in the

energy range 0.2–6.0 keV

NUCLEAR INSTRUMENTS AND METHODS IN PHYSICS RESEARCH B 395 (2017)

24–32

48.) ALESSANDRA DE SOUZA BARBOSA

ESPALHAMENTO ELÁSTICO DE ELÉTRONS E PÓSITRONS POR MOLÉCULAS CÍCLICAS

PHD Thesis, UNIVERSIDADE FEDERAL DO PARANÁ (2017)

49.) Alessandra Souza Barbosa and Márcio H. F. Bettega

http://pubs.acs.org/author/Houplin%2C+Justine

http://pubs.acs.org/author/Dablemont%2C+Céline

http://pubs.acs.org/author/Sala%2C+Leo

http://pubs.acs.org/author/Lafosse%2C+Anne

http://pubs.acs.org/author/Amiaud%2C+Lionel

Shape resonances, virtual state, and Ramsauer-Townsend minimum in the low-energy

electron collisions with benzene

The Journal of Chemical Physics 146 (2017) 154302 (2017)

50.) Meera D. Gurung

Total Electron Scattering Cross Sections of Molecules Containing H, B, C, N, O, F, Si, P,

S and Cl in the Energy Range 0.1-6 keV

Ph. D. Thesis, Baylor University 2017

51.) Dineshkumar Prajapati, Hitesh Yadav, P. C. Vinodkumar, Chetan Limbachiya, Amar Dora,

Minaxi Vinodkumar

Computation of electron impact scattering studies on benzene

EUR. PHYS. J. D 72 (2018) 210

ARTICLE 4

Electron scattering on C6F6 and SF6 molecules

G. Kasperski, P. Możejko, and Cz. Szmytkowski

Z. PHYS. D 42 (1997) 187-191 (1997)

Cited in:





2.) Szmytkowski Cz and Ptasińska-Denga E


VACUUM 63: 545-548 (2001)

3.) Cho H, Gulley R J, Sunohara K, et al.

Elastic electron scattering from C6H6 and C6F6

J. PHYS. B 34: 1019-1038 (2001)

4.) Christophorou L G, Olthoff J K

Electron attachment cross sections and negative ion states of SF6

INT. J MASS SPECTROM. 205: 27-41 (2001)

5.) Gianturco F A, Lucchese R R

Electron scattering from gaseous SF6: Comparing calculations with experiments

J. CHEM. PHYS. 114: 3429-3439 (2001)



PHYS. REV. A 62: 062712 (2000)

7.) Cho H, Gulley R J, Trantham K W, et al.

Elastic electron scattering from sulfur hexafluoride

J PHYS. B 33: 3531-3544 (2000)


Electron interactions with SF6

J. PHYS. CHEM. REF. DATA 29: 267-330 (2000)

9.) Cho H, Gulley R J, Buckman S J

The total elastic cross section for electron scattering from SF6

J. PHYS. B 33: L309-L315 (2000)

10.) Szmytkowski Cz., Kwitnewski S.


J. PHYS. B 35: 2613-2623 (2002)



RADIAT. PHYS. CHEM. 68: 169-174 (2003)


Comparative study of electron and positron scattering from benzene (C6H6)

and hexafluorobenzene (C6F6) molecules

PHYS. REV. A 68: 032707 (2003)

13.) Szmytkowski Cz, Kwitnewski S, Ptasińska-Denga E

Electron collisions with tetrafluoroethylene (C2F4) and ethylene (C2H4) molecules

PHYS. REV.A 68:032715 (2003)


A comparative study of electron and positron scattering from chlorobenzene (C6H5Cl) and

chloropentafluorobenzene (C6F5Cl) molecules

J.CHEM. PHYS.119:12257 (2003)



J. PHYS. B 36: 4865-4873 (2003)

16.) Field D, Jones N C, Ziesel J-P

Cold electron scattering in SF6 and C6F6: Bound and virtual state channels

PHYS. REV. A 69: 052716 (2004)

17.) Makochekanwa C, Kimura M, Sueoka O

Experimental study of total cross sections for positron and electron scattering by SF6

molecules

PHYS. REV. A 70: 022702 (2004)

18.) Limao-Vieira P, Blanco F, Oller J C, Munoz A, Perez J M, Vinodkumar M, Garcia G,

Mason N J

Electron scattering cross sections for SF6 and SF5CF3 at intermediate and high energies

(100-10000 eV)

PHYS. REV. A 71: 032720 (2005)




CHINESE PHYSICS 15: 1278-1283 (2006)


Calculated cross sections for electron elastic and inelastic scattering from DNA and

RNA Bases

PHYS. LETT. A 360: 707-712 (2007)


Fundamental Electron Interactions With Plasma Processing Gases

Springer (2004)

22.) Raju G G


CRC (2005)





24.) Makochekanwa C, Kimura M, Sueoka O

SF6 Dielectric Molecules: Electron Scattering Dynamics and Possible Applications

pp.13-18 in Gaseous Dielectrics X: Proceedings. Eds. L. G. Christophorou, J K Olhoff,

P Vassiliou, Springer (2004)

25.) D.H. Shi, J.F. Sun, Y.F. Liu et al.

Geometric shielding correction approach for total cross sections of electron scattering by

C6H6, C6F6, C6H12, C6H14, C6F14, C8H16, C8H18 and C8F18 at 30-5000 eV

J. PHYS. B 41 (2008) 025205


“Total Electron Scattering Cross Sections of CH4, NH3, PH3 and SiH4 Molecules for

Intermediate Energy Electrons”


27.) G. Kasperski




28.) S. Kwitnewski


elektronów


29.) G.G. Raju



30.) D.H. Shi, J.F. Sun, Y.F. Liu, Z.L. Zhui and H. Mai

Total cross sections of electron scattering by several sulfur-containing molecules OCS,

SO2, SF4, SF6, SF5CF3, SO2Cl2 and SO2ClF at 30–5000 eV

EUR. PHYS. J. D 54 (2009) 43–50

31.) F. Blanco, J. Rosado, A Illana, G. Garcia

Comparison of two screening corrections to the additivity rule for the calculation of

electron scattering from polyatomic molecules

PHYS. LETT. A 374 (2010) 4420-4424

32.) Han S. Uhm, Yong S. Byeon, Ki B. Song, Eun H. Choi, Han-Yong Ryu, and Jaimin Lee

Analytical investigation of electrical breakdown properties in a nitrogen-SF6 mixture gas

PHYSICS OF PLASMAS 17 (2010) 113510

33.) Han S. Uhm, Eun H. Choi, Guangsup Cho and Han-Yong Ryu

Breakdown temperature of electrons in SF6 gas

APPL. PHYS. LETT. 97 (2010) 161501

34.) G. G. Raju


CRC Press 2011

35.) B. Goswami, B. Antony

Electron impact scattering by SF6 molecule over an extensive energy range

RSC ADV. 4 (2014) 30953-30962



wieloatomowych


37.) Dhanoj Gupta, Heechol Choi, Deuk-Chul Kwon, Jung-Sik Yoon, Bobby Antony and Mi-

Young Song

Cross sections for electron collision with difluoroacetylene

J. PHYS. B 50 (2017) 085202

38.) Dhanoj Gupta, Heechol Choi, Mi-Young Song, Kalyan Chakrabarti, Jung-Sik Yoon

Low energy cross sections for electron scattering from tetrafluoroallene

EUR. PHYS. J. D 71 (2017) 213





ARTICLE 5

Low- and intermediate-energy total electron scattering cross sections for SiH4 and GeCl4

molecules

Cz. Szmytkowski, P. Możejko, and G. Kasperski

J. PHYS. B 30 (1997) 4363-4372

Cited in:

1.) International Bulletin on Atomic and Molecular Data for Fusion No. 54-55 (1998) Ed.

J.A. Stephens, International Atomic Energy Agency (Vienna 1997)







VACUUM 63: 545-548 (2001)


One century of experiments on electron-atom and molecule scattering: a critical review of

integral cross-sections II. - Polyatomic molecules


5.) Cascella M, Curik R, Gianturco F A, et al.

Electron-impact vibrational excitation of polyatomic gases: Exploratory calculations

J. CHEM. PHYS. 114: 1989-2000 (2001)

6.) Joucoski E, Bettega M H F

Elastic scattering of low-energy electrons by carbon, silicon, germanium and tin

tetrahalides

J. PHYS. B 35: 4953-4968 (2002)

7.) Lee M T, Lima M F, Sobrinho A M C, Iga I

Theoretical study on electron-free radical collisions: An application to SiH and SiF

PHYS. REV. A: 66, 062703 (2002)

8.) Bettega M H F, Varella M T do N, Lima M A P

Polarization effects in the elastic scattering of low-energy electrons by HX4 (X = C, Si,

Ge, Sn, Pb)

PHYS. REV. A: 68, 012706 (2003)

9.) Szmytkowski Cz, Klosowski L, Domaracka A, Piotrowicz M, Ptasińska-Denga E

Scattering of electrons from hydride molecules: PH3

J. PHYS. B 37: 1833–1840 (2004)

10.) Shi D H, Sun J F, Lu Y F, Ma H, Zhu Z L

A modification potential method for total cross section calculation of electron scattering

by molecules at medium and high energies

ACTA PHYSICA SINICA 55: 4096-4102 (2006)

11.) Khare S P

Introduction to the Theory of Collisions of Electrons With Atoms and Molecules

Springer (2002)

12.) Raju G G


CRC (2005)







Intermediate Energy Electrons” M.Sc. Thesis Baylor University (2004)

15.) G. Kasperski




16.) M. Vinodkumar, C. Limbachiya, K. Korot, K.N. Joshipura

Theoretical electron impact elastic ionization and total cross section for silicon hydideas

SiHx (x=1,2,3,4) and disilane Si2H6 from threshold to 5 keV

EUR. PHYS. J. D 48 333-342 (2008)

17.) Raju G G



18.) Cz. Szmytkowski

Scattering of electrons from acetaldehyde and acetone

J. PHYS. B 43: 055201 (2010)

19.) Adriana do Rocio Lopes

Polarizacao do Alvo Molecular no Espalhamento de Eletrons

PhD Thesis Universidade Estadual de Campinas (2007)

20.) E. Joucoski

Espalhamento elastico de eletrons por moleculas de NF3 e SnY4 (Y=Cl, Br, I)

MSc Thesis Curtiba (2002)

21.) Cz. Szmytkowski and Elżbieta Ptasińska-Denga

Total electron-scattering cross section measurements for tetrahydropyran,(CH2)5O,

molecules

J. Phys. B: At. Mol. Opt. Phys. 44 (2011) 015203

22.) G. G. Raju


CRC Press 2011

23.) B. Brynjarsson

Negative ion formation through dissociative electron attachment to Germanium

tetrachloride

B. Sc. Thesis, University of Iceland (2014)



wieloatomowych


25.) Pankaj Verma, Jaspreet Kaur, and Bobby Antony

Electron-silane scattering cross section for plasma assisted processes






Phys. Rev. A 97 (2018) 052711

27.) Ragesh Kumar T. P., B.Brynjarsson, B.Ómarsson, M.Hoshino, H.Tanaka, P.Limão-Vieirab,

D.B.Jones, M.J.Brunger, O.Ingólfsson

Negative ion formation through dissociative electron attachment to the group IV

tetrachlorides: Carbon tetrachloride, silicon tetrachloride and germanium tetrachloride

INT. J. MASS SPECTROM. 426 (2018) 12-28

28.) Pankaj Verma, BobbyAntony

Elastic scattering of electrons by silicon, germanium and tin tetrahalides

J. ELECTRON. SPECT. REL. PHENOM. 222 (2018) 51-56




http://aip.scitation.org/author/Verma%2C+Pankaj

http://aip.scitation.org/author/Kaur%2C+Jaspreet

http://aip.scitation.org/author/Antony%2C+Bobby

ARTICLE 6

Total cross section measurements for electron scattering on silicon tetrafluoride

G.P. Karwasz, R.S. Brusa, A. Piazza, A. Zecca, P. Możejko, G. Kasperski, and Cz. Szmytkowski

CHEM. PHYS. LETT. 284 (1998) 128-134

Cited in:

1.) Karwasz G P, Brusa R S, and Zecca A




2.) Szmytkowski Cz and Ptasińska-Denga E


VACUUM 63: 545-548 (2001)

3.) Curik R, Gianturco F A, and Sanna N

The close-coupling-single center-expansion (CC-SCE) model for electron scattering from

polyatomic targets

INT. J. QUANTUM CHEM. 84: 565-579 (2001)

4.) de Souza G G B, Rocco M L M., Boechat-Roberty H M., et al

Valence electronic excitation of the SiF4 molecule: generalized oscillator strength for the

5t(2)-> 6a(1) transition and ab initio calculation

J. PHYS. B 34: 1005-1017 (2001)

5.) Basner R, Schmidt M, Denisov E, et al.

Absolute total and partial cross sections for the electron impact ionization of

tetrafluorosilane (SiF4)

J. CHEM. PHYS. 114: 1170-1177 (2001)

6.) Karwasz G P, Brusa R S, Piazza A, et al

Total cross sections for electron scattering on chloromethanes: Formulation of the

additivity rule

PHYS. REV. A 59: 1341-1347 (1999)

7.) Lee M T, Lima M F, Sobrinho A M C, and Iga I

Theoretical study on electron-free radical collisions: An application to SiH and SiF

PHYS. REV. A: 66: 062703 (2002)





9.) Thaminda Wijeratne “Total Electron Scattering Cross Sections of CH4, NH3, PH3 and

SiH4 Molecules for Intermediate Energy Electrons” M.Sc. Thesis Baylor University

(2004)

10.) G. Kasperski




11.) Raju G G






13.) G. G. Raju


CRC Press 2011

14.) H. Kato, K. Anzai, T. Ishihara, M. Hoshino, F. Blanco, G. Garcia, P. Limao-Vieira, M.J.

Brunger, S.J. Buckman and H. Tanaka

A study of electron interactions with silicon tetrafluoride: elastic scattering and

vibrational excitation cross sections

J. PHYS. B 45 (2012) 095204

15.) E.H. Bjarnason, F.H. Omarsson, M. Hoshino, H. Tanaka, M.J. Brunger, P. Limao-Vieira

and O. Ingolfsson

Negative ion formation throught dissociative electron attachment to the group IV

tetrafluorides: Carbon tetrafluoride, silicon tetrafluoride and germanium tetrafluoride

INT. J. MASS SPECTROM. 339-340 (2013) 45



wieloatomowych


17.) G. M. Moreira and M. H. F. Bettega

Collisions of slow electrons with SiF4 and GeF4: Shape resonance, Ramsauer-Townsend

minimum, and virtual state

PHYSICAL REVIEW A 93: 062702 (2016)

18.) GISELI MARIA MOREIRA

Espalhamento de Elétrons por Moléculas de CCl4, XF4 (X = Si, Ge) e 1,2-butadieno

M.Sc Thesis, Universidade Federal do Paraná, Curitiba 2016





ARTICLE 7

Experimental absolute total cross sections for low-energy electron collisions with

tetrahedral compounds of germanium: GeF4


J. PHYS. B 31 (1998) 3917-3928

Cited in:


One century of experiments on electron-atom and molecule scattering: A critical review

of integral cross-sections III. Hydrocarbons and halides


2.) Szmytkowski Cz., Ptasińska-Denga E.


VACUUM 63: 545-548 (2001)



J. PHYS. B 35: 2613-2623 (2002)



J. PHYS. B 36: 4865-4873 (2003)

5.) Szmytkowski Cz., Piotrowicz M., Domaracka A., Kłosowski Ł., Ptasińska-Denga E.,

Kasperski G.,


J. CHEM. PHYS. 121: 1790-1795 (2004)

6.) Domaracka A., Ptasińska-Denga E., and Szmytkowski Cz.,

Electron collisions with boron trichloride (BCl3) molecules

PHYS. REV. A 71: 052711 (2005)

7.) Du CL, Sun JF, Liu YF, Cheng GX, Chen YF

An empirical formula approach to total cross sections for electron scattering on

polyatomic molecules

CHINESE PHYS. LETT. 22: 2801-2804 (2005)

8.) A. Domaracka, S. Kwitnewski, E. Ptasińska-Denga, Cz. Szmytkowski

Electron scattering on sulfur-containing molecules

Third Conference on the Elementary Processes in Atomic Systems (Miskolc, 2005) 62

(2005)






SiH4 Molecules for Intermediate Energy Electrons”


11.) I. Linert

Badania rozproszenia elektronów na cząsteczkach tlenu w szerokim zakresie kątów

rozproszenia

Rozprawa doktorska, PG, Gdańsk 2006

12.) G. Kasperski




13.) S. Kwitnewski


elektronów


14.) Raju G G



15.) H. Kato, A. Suga, M. Hoshino, F. Blanco, G. Garcia, P. Limao-Vieira, M.J. Brunger and

H. Tanaka

Elastic cross sections for electron scattering from GeF4: Predominance of atomic-F in

the high-energy collision dynamics

J. CHEM. PHYS. 136 (2012) 134313


and O. Ingolfsson




17.) B. Goswami, R. Naghma and B. Antony

Electron scattering from germanium tetrafluoride

RSC ADV. 4 (2014) 63817

18.) F.H. Omarsson

Symmetries, dynamics and energetics in dissociative electron attachment to selected group

IV halides - Velocity Slice Imaging and crossed beam studies

PhD Thesis, University of Iceland 2014



wieloatomowych


20.) G. M. Moreira and M. H. F. Bettega

Collisions of slow electrons with SiF4 and GeF4: Shape resonance, Ramsauer-Townsend

minimum, and virtual state





22.) S. Ohtomi, M. Hoshino, A. Suga, H. Kato, D. Duflot, P. Limao-Vieira, and H. Tanaka

Studies on GeF4 Valence and Rydberg States by Electron Impact Spectroscopy and Ab

lnitio Calculations

J. PHYS. CHEM. A 120 (2016) 9170-9177

23.) M. Hoshino, D. Duflot P. Limao-Vieira, S. Ohtomi, and H. Tanaka

Experimental scaling of plane-Born cross sections and ab initio assignments for electron-

impact excitation and dissociation of XF4 (X = C, Si, and Ge) molecules

J. CHEM. PHYS. 146 (2017) 144306




ARTICLE 8

Absolute total cross-section measurements for electron scattering from silicon tetrachloride,

SiCl4, molecules

P. Możejko, G. Kasperski, Cz. Szmytkowski, A. Zecca, G.P. Karwasz, L. Del Longo, and R.S.

Brusa

EUR. PHYS. J. D 6 (1999) 481-485

Cited in:




RIV. NUOVO. CIMENTO 24: 1-101 (2001)

2.) Curik R, Gianturco F A, Sanna N

The close-coupling-single center-expansion (CC-SCE) model for electron scattering from

polyatomic targets

INT. J. QUANTUM CHEM. 84: 565-579 (2001)

3.) Azevedo D L, Bettega M H F, Ferreira L G, et al.

Scattering of low-energy electrons by TiCl4, GeCl4, SiCl4 and CCl4: a comparison of

elastic cross sections

J. PHYS. B 33: 5467-5478 (2000)

4.) Joucoski E, Bettega M H F

Elastic scattering of low-energy electrons by carbon, silicon, germanium and tin

tetrahalides

J. PHYS. B 35: 4953-4968 (2002)

5.) Shiozawa M, Nanbu K

Coupling of plasma and flow in materials processing

THIN SOLID FILMS 457 (1): 48-54 JUN 1 2004

6.) Lane C D, Shepperd K R, Aleksandrov A B, Orlando T M

Electron stimulated desorption of cations from SiCl4 multilayers adsorbed on Si(111)

SURF. SCI. 593: 173-179 (2005)

7.) Lane C D, Orlando T M

Low-energy electron stimulated desorption of neutrals from multilayers of SiCl4 on Si(111)

J. CHEM. PHYS. 124: 164702 (2006)

8.) Wang Z K, Lou Y H, Lin K X, Lin X Y, Huang R, Wei J H

Effects of hydrogen dilution on deposition process of nano-crystalline silicon film by

SiCl4/H-2 plasma

J. PHYS. D - APPLIED PHYSICS 39: 3030-3035 (2006)





10.) Lane C D

LOW-ENERGY ELECTRON INDUCED PROCESSES IN MOLECULAR THIN FILMS

CONDENSED ON SILICON AND TITANIUM DIOXIDE SURFACES

PhD Thesis Georgia Institute of Technology (2007)

11.) Raju G G



12.) Lou Yan-hui, Wang Zhao-kui, Lin Kui-xun, Lin Xuan-ying

Effects of hydrogen dilution on SiCln (n=0-2) densities in deposition process of nano-

crystalline silicon film by SiCl4/H2

JOURNAL OF FUNCTIONAL MATERIALS 39 (2008) 47-53

13.) E. Joucoski

Espalhamento elastico de eletrons por moleculas de NF3 e SnY4 (Y=Cl, Br, I)

MSc Thesis Curtiba (2002)

14.) H. N. Kothari S. H. Pandya and K. N. Joshipura

Electron impact ionization of plasma important SiClX (X=1-4) molecules: theoretical

cross sections

J. Phys. B 44 (2011) 125202

15.) M.H.F. Bettega

Elastic collisions of low-energy electrons with SiY4 (Y=Cl, Br, I) molecules

PHYS. REV. A 84: 052725 (2011)

16.) T. Knorr, M. Kaiser, F. Glenk, B.J.M. Etzold

Shrinking core like fluid solid reactions-A dispersion model accounting for fluid phase

volume change and solid phase particle size distributions

CHEM. ENG. SCIENCE 69: 492-502 (2012)

17.) G. G. Raju


CRC Press 2011

18.) C.V. Pandya

Electron-impact ionization of SiCl, SiCl2 and SiCl4 molecules

J. At. Mol. Sci. 4 (2013) 41-48

19.) H.-Y. Cheng, Y.-S. Huang and P.-Q. Huang

Application of the stabilized Koopmans’ Theorem to the temporary anion states of

chlorosilanes in long-range corrected density functional theory

J. Chin. Chem. Soc. 61 (2014) 1313-1325

20.) N. Nakazaki, H. Tsuda, Y. Takao, K. Eriguchi and K. Ono

Two modes of surface roughening during plasma etching of silicon: Role of ionized etch

products

J. Appl. Phys. 116 (2014) 223302

21.) R.F. da Costa, M.T. do N. Varella, M.H.F. Bettega, and M.A.P. Lima

Recent advances in the application of the Schwinger multichannel method with

pseudopotentials to electron-molecule collisions

EUROPEAN PHYSICAL JOURNAL D 69 (2015) 159



wieloatomowych


23.) K. Ono, N. Nakazaki, H. Tsuda, Y. Takao, K. Eriguchi

Surface morphology evolution during plasma etching of silicon: roughening, smoothing

and ripple formation

J. PHYS. D – APPLIED PHYSICS 50 (2017) 414001
















ARTICLE 9

Electron scattering from hexafluoride molecules: WF6 and C2F6. Absolute total cross section

measurements from 1 to 250 eV

Cz. Szmytkowski, P. Możejko, G. Kasperski, and E. Ptasińska-Denga

J. PHYS. B 33 (2000) 15-22

Cited in:







VACUUM 63: 545-548 (2001)



PHYS. REV. A 62: 062712 (2000)

4.) Sueoka O, Makochekanwa C, Kawate H

Positron and electron total cross sections for collisions with C2F6 and C2H3F3 molecules

NUCL. INSTRUM. METH. B 192: 206-214 (2002)


Electron scattering from C4H6 and C4F6 molecules

J. PHYS. B. 36: 2129-2138 (2003)



RADIAT. PHYS. CHEM. 68: 169-174 (2003)

7.) Ariyasinghe W M

Total electron scattering cross sections of CF4 and C2F6 in the energy range 100-1500 eV

RADIAT. PHYS. CHEM. 68: 79-83 (2003)

8.) Nishimura H, Nishimura F, Nakamura Y, et al.

Total electron scattering cross sections for simple perfluorocarbons

J. PHYS. SOC. JPN. 72: 1080-1086 (2003)

9.) Szmytkowski Cz, Piotrowicz M, Domaracka A, Kłosowski Ł, Ptasińska-Denga E,

Kasperski G,


J. CHEM. PHYS. 121: 1790-1795 (2004)

10.) Antony B K, Joshipura K N, Mason N J,

Total and ionization cross sections of electron scattering by fluorocarbons

J. PHYS. B 38: 189-205 (2005)

11.) Sun J F, Xu B, Liu Y F, Shi D H

Total cross sections for electron scattering at 10-5000eV by polyatomic molecules CF4,

CF3H, C2F4, C2F6 and C2H3F3

CHINESE PHYSICS 14: 1125-1129 (2005)

12.) Iga I, Sanches I P, Rawat P, Homem M G P , Lee M-T

Experimental study on electron-hexafluoroethane (C2F6) collisions in the low- and

intermediate-energy ranges

J. PHYS. B 38: 3477-3487 (2005)




CHINESE PHYSICS 15: 1278-1283 (2006)


Fundamental Electron Interactions With Plasma Processing Gases

Springer (2004)

15.) Raju G G


CRC (2005)





17.) G. Kasperski




18.) S. Kwitnewski


elektronów


19.) Yamada T, Ushiroda S, Kondo Y

Total cross section of electron scattering by fluorocarbon molecules

J. PHYS. B 41 (2008) 235201

20.) Raju G G



21.) W.F. van Dorp, J.D. Wnuk, J.M. Gorham, D.H. Fairbrother, T.E. Madey, and C.W.

Hagen

Electron induced dissociation of trimethyl, methylcyclopentadienyl. Platinum, IV.: Total

cross section as a function of incident electron energy

J. APPL. PHYS. 106 (2009) 074903

22.) I. Bliznakova, G. Kasperski, A. Daskelova, P. Rosseau, A. Ławicki and A. Domaracka

TOF-SIMS investigation of hard dental tissue by highly charged ion irradiation for

medical applications (Part I)

3rd ITS LEIF Winter School “Complex Systems & Ion Optical Tools” Pralognan France

2010 p.24

23.) G. G. Raju


CRC Press 2011

24.) G. Karwasz, and K. Fedus

Some systematics in electron scattering cross sections

FUSION SCIENCE AND TECHNOLOGY 63 (2013) 338-348

25.) H. Cho, J.-S. Yoon, and M.-Y. Song

EVALUATION OF TOTAL ELECTRON SCATTERING CROSS SECTIONS OF

PLASMA-RELEVANT MOLECULES


26.) Xiaoming Tan∗ , and Mingliang Liu

Total cross sections for electron scattering from CF4, C2F4, C2F6, C3F8 in the energy

range from 100 eV to 5000 eV

J. At. Mol. Sci. 6 (2015) 113-118

27.) International Bulletin on Atomic and Molecular Data for Fusion No. 60 (2001) Ed. J.A.

Stephens, International Atomic Energy Agency (Vienna 2001)



wieloatomowych




EUR. PHYS. J. D 71 (2017) 213

30.) Thomas Sommerfeld and Megan C. Davis

Ring-opening attachment as an explanation for the long lifetime of the octafluorooxolane

anion

J. CHEM. PHYS. 149 (2018) 084305

ARTICLE 10

Spectrometer for the study of electron-assisted processes

Cz. Szmytkowski, and P. Możejko

VACUUM 63 (2001) 549-554

Cited in:

1.) Szmytkowski Cz., Ptasinska-Denga E.


VACUUM 63: 545-548 (2001)


Electron scattering from C4H6 and C4F6 molecules

J. PHYS. B 36: 2129-2138 (2003)

3.) Szmytkowski Cz., Kwitnewski S. Ptasinska-Denga E.

Electron collisions with tetrafluoroethylene (C2F4) and ethylene (C2H4) molecules

PHYS. REV.A 68:032715 (2003)



J. PHYS. B 36: 4865-4873 (2003)

5.) Szmytkowski Cz., Klosowski L, Domaracka A, Piotrowicz M., Ptasinska-Denga E.


J. PHYS. B 37: 1833–1840 (2004)

6.) Szmytkowski Cz., Piotrowicz M., Domaracka A., Kłosowski Ł., Ptasińska-Denga E.,

Kasperski G.,


J. CHEM. PHYS. 121: 1790-1795 (2004)

7.) Domaracka A., Ptasińska-Denga E., and Szmytkowski Cz.,


PHYS. REV. A 71: 052711 (2005)

8.) S. Kwitnewski


elektronów




molecules




wieloatomowych


ARTICLE 11

Electron scattering from disilane (Si2H6) molecules. Absolute total cross section

measurements from 1 to 370 eV.


J. PHYS. B 34 (2001) 605-612

Cited in:

1.) Maia C A S, Bettega M H F

Elastic scattering of low-energy electrons by XH3YH3 (X, Y=C, Si, Ge, Sn)

PHYS. REV. A 67: 042710 (2003)

2.) Szmytkowski Cz, Kłosowski Ł, Domaracka A, Piotrowicz M, Ptasińska-Denga E


J. PHYS. B 37: 1833–1840 (2004)

3.) Raju G G


CRC (2005)

4.) G. Kasperski

Wyznaczanie całkowitych przekrojów czynnych na rozpraszanie elektronów na

wybranych drobinach wieloatomowych


5.) M. Vinodkumar, C. Limbachiya, K. Korot, K.N. Joshipura

Theoretical electron impact elastic ionization and total cross section for silicon hydideas

SiHx (x=1,2,3,4) and disilane Si2H6 from threshold to 5 keV

Eur. Phys. J. D 48 333-342 (2008)

6.) Raju G G



7.) I. Bliznakova, G. Kasperski, A. Daskelova, P. Rosseau, A. Ławicki and A. Domaracka

TOF-SIMS investigation of hard dental tissue by highly charged ion irradiation for

medical applications (Part I)

3rd ITS LEIF Winter School “Complex Systems & Ion Optical Tools” Pralognan France

2010 p.24

8.) G. G. Raju


CRC Press 2011

9.) International Bulletin on Atomic and Molecular Data for Fusion No. 62 (2003) Ed. D.

Humbert, International Atomic Energy Agency (Vienna 2003)

10.) G. Karwasz, and K. Fedus

Some systematics in electron scattering cross sections


11.) D. Gupta, R. Naghama, B. Goswami, B. Antony

Electron induced chemistry of disilane

RSC ADVANCES 4 (2014) 9197-9201





ARTICLE 12

Electron-hexafluoropropene (C3F6) scattering at intermediate energies

Cz. Szmytkowski, P. Możejko, and S. Kwitnewski

J. PHYS. B 35 (2002) 1267-1274

Cited in:



J. PHYS. B 35: 2613-2623 (2002)

2.) Kwitnewski S., Ptasińska-Denga E., Szmytkowski Cz.


RADIAT. PHYS. CHEM. 68: 169-174 (2003)



J. PHYS. B 36: 4865-4873 (2003)

4.) Makochekanwa C., Kato H., Hoshino M., Cho H., Kimura M., Sueoka O., Tanaka H.,

Probing the isomer, fluorination and bond effects in C3H6, cyclo-C3H6 and C3F6 molecules

using electron impact

EUR. PHYS. J. D 35: 249-255 (2005)

5.) Raju G G


CRC (2005)

6.) S. Kwitnewski


elektronów


7.) Raju G G



8.) G. G. Raju


CRC Press 2011

9.) U. Hohm

Experimental static dipole-dipole polarizabilities of molecules

J. MOL. STRUCTURE 1054: 282-292 (2013)

ARTICLE 13

Elastic cross-section calculations for electron collisions with XY4 (X = Si, Ge; Y=H, F, Cl,

Br, I) molecules

P. Możejko, B. Żywicka-Możejko and Cz. Szmytkowski

NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B-

BEAM INTERACTIONS WITH MATERIALS AND ATOMS

196 (2002) 245-252

Cited in

1.) Lane C D, Orlando T M

Low-energy electron stimulated desorption of neutrals from multilayers of SiCl4 on Si(111)

J. CHEM. PHYS. 124: 164702 (2006)

2.) Iga I, Sanches I P, de Almeida E, Sugohara R T, Rosani L, Lee M -T

Experimental verification on the applicability of the independent-atom model (IAM) for

elastic electron-molecule scattering in the intermediate-energy range

J. ELECTRON SPECTROSCOPY AND RELATED PHENOMENA 155: 7-13 (2007)

3.) Lane C D

LOW-ENERGY ELECTRON INDUCED PROCESSES IN MOLECULAR THIN FILMS

CONDENSED ON SILICON AND TITANIUM DIOXIDE SURFACES

PhD Thesis Georgia Institute of Technology (2007)

4.) S. Edel

Modelisation du transport des photons et dea electrons dans l’AND plasmide

PhD Thesis, Universite Toulouse III- Paul Sabatier (2006)




6.) H. N. Kothari S. H. Pandya and K. N. Joshipura

Electron impact ionization of plasma important SiClX (X=1-4) molecules: theoretical

cross sections

J. PHYS. B 44 (2011) 125202

7.) A. Suga, H. Kato, M. Hoshino, P. Limao-Vieira, F. Blanco, G. Garcia and H. Tanaka

Absolute differential cross sections for GeF4 molecules by electron impact

XVII International Symposium on Electron-Molecule Collisions and Swarms, POSMOL

2011, Maynooth, 2011, Book of Abstracts p. 77

8.) M.H.F. Bettega

Elastic collisions of low-energy electrons with SiY4 (Y=Cl, Br, I) molecules

PHYS. REV. A 84: 052725 (2011)

9.) H. Kato, K. Anzai, T. Ishihara, M. Hoshino, F. Blanco, G. Garcia, P. Limao-Vieira, M.J.

Brunger, S.J. Buckman and H. Tanaka

A study of electron interactions with silicon tetrafluoride: elastic scattering and

vibrational excitation cross sections

J. PHYS. B 45 (2012) 095204

10.) H. Kato, A. Suga, M. Hoshino, F. Blanco, G. Garcia, P. Limao-Vieira, M.J. Brunger, H.

Tanaka

Elastic cross sections for electron scattering from GeF4: Predominance of atomic F in

the high-energy collision dynamics

J. CHEM. PHYS. 136 (2012) 134313


and O. Ingolfsson




12.) F.H. Ómarsson, B. Reynisson, M.J. Brunger, M. Hoshino, H. Tanaka, P. Limão-Vieira, O.

Ingólfsson,


tetrabromides: Carbon tetrabromide, silicon tetrabromide and germanium tetrabromide


13.) E.H. Bjarnason, B. Ómarsson, N.R. Jónsdóttir, I. Árnason, O. Ingólfsson,

Dissociative electron attachment and dissociative ionization of 1,1-dichloro-1-

silacyclohexane and silacyclohexane

INT. J. MASS SPECTROM. 370 (2014) 39

14.) B. Brynjarsson

Negative ion formation through dissociative electron attachment to Germanium

tetrachloride

B. Sc. Thesis, University of Iceland (2014)

15.) B. Goswami, R. Naghma and B. Antony

Electron scattering from germanium tetrafluoride

RSC ADV. 4 (2014) 63817

16.) F.H. Omarsson

Symmetries, dynamics and energetics in dissociative electron attachment to selected group

IV halides - Velocity Slice Imaging and crossed beam studies

PhD Thesis, University of Iceland 2014

17.) Sh.Sh. Demesh, V.I. Kelemen and E.Yu. Remeta

Potential electron scattering by the phosphorous systems Pn(n= 1÷3)

J. Phys.: Conf. Ser. 635 (2015) 072020

18.) N. Kumar, R. Singh and S. Pal

IONIZATION CROSS SECTIONS AND RATE COEFFICIENTS FOR α-TETRA

HYDRO FURFURYL ALCOHOL

in Electron Collision Processes in Atomic and Molecular Physics ed. P.C. Minaxi

Vinodkumar, Narosa Publishing House (New Delhi) 2014 pp. 155-157

19.) A. Pilatau, H. S. Medeiros, A. S. da Silva Sobrinho, and G. Petraconi Filho

Numeric Model for Assessment of Naphthalene Conversion through Ionization Reactions

in a Microwave Air Plasma Torch

Energy Fuels 30 (2016) 7704–7712

20.) Sh. Sh. Demesh, V.I. Kelemen, E. Yu. Remeta,

POTENTIAL ELECTRON SCATTERING BY P-2 AND P-3 PHOSPHORUS

MOLECULES

UKRAINIAN JOURNAL OF PHYSICS 61 (2016) 291-300

21.) Sh. Sh. Demesh, V.I. Kelemen, E. Yu. Remeta,

Potential electron scattering by the molecule

J. PHYS. STUDIES 19 (2015) 4301

22.) S. Ohtomi, M. Hoshino, A. Suga, H. Kato, D. Duflot, P. Limao-Vieira, and H. Tanaka

Studies on GeF4 Valence and Rydberg States by Electron Impact Spectroscopy and Ab

lnitio Calculations

J. PHYS. CHEM. A 120 (2016) 9170-9177

23.) M. Hoshino, D. Duflot P. Limao-Vieira, S. Ohtomi, and H. Tanaka

Experimental scaling of plane-Born cross sections and ab initio assignments for electron-

impact excitation and dissociation of XF4 (X = C, Si, and Ge) molecules

J. CHEM. PHYS. 146 (2017) 144306

24.) Sh.Sh. Demesh, V.I. Kelemen, E. Yu. Remeta

Elastic electron scattering by the CF3 radical in the 1-1000 eV energy range

J. PHYS. B 50 (2017) 135201





Phys. Rev. A 97 (2018) 052711












ARTICLE 14

Low-energy electron-haxafluoropropene (C3F6) scattering

Cz. Szmytkowski, S. Kwitnewski , P. Możejko, and E. Ptasińska-Denga

PHYS. REV. A 66 (2002) 014701

Cited in:

1.) Kwitnewski S, Ptasińska-Denga E Szmytkowski Cz


RADIAT. PHYS. CHEM. 68: 169-174 (2003)

2.) Makochekanwa C, Kato H, Hoshino M, Cho H, Kimura M, Sueoka O, Tanaka H

Probing the isomer, fluorination and bond effects in C3H6, cyclo-C3H6 and C3F6 molecules

using electron impact

EUR. PHYS. J. D 35: 249-255 (2005)



Intermediate Energy Electrons”




5.) G. Kasperski




6.) S. Kwitnewski


elektronów


7.) Raju G G





EUR. PHYS. J. D 71 (2017) 213

9.) M.B. Kiataki

Espalhamento de electrons por hidrocarbonetos (C4H6, C5H8, C6H10) e halogenetos

(CF3Br, CF3I, C3F6)

M.Sc. Thesis Universidade Federal do Parana, Curtiba 2018

10.) A Sakaamini, B Hlousek, S M Khakoo, M Zawadzki, M A Khakoo, M B Kiataki and M H

F Bettega

Low energy elastic scattering of electrons from hexafluoropropene (C3F6)

J. PHYS. B 52 (2019) 025206

ARTICLE 15

Cross section calculations for electron scattering from DNA and RNA bases

P. Możejko, and L. Sanche

RADIAT. ENVIRON. BIOPHYS. 42 (2003) 201-211

Cited in:

1.) Tan Z.Y., Xia Y.Y., Liu X.D., Zhao M.W., Ji Y.J., Li F., Huang B.

Cross sections of electron inelastic interactions in DNA

RADIAT. ENVIRON. BIOPH. 43: 173-182 (2004 )

2.) Sanche L.,

Low energy electron-driven damage in biomolecules

EUR. PHYS. J. D 35: 367-390 (2005)

3.) Tonzani S, Greene CH

Low-energy electron scattering from DNA and RNA bases: Shape resonances and radiation

damage

J. CHEM. PHYS. 124 054312 (2006)

4.) de Barros ALF, Medina A, Zappa F, Pereira JM, Bessa E, Martins MHP, Coelho LFS, Wolff

W, de Castro Faria NV

A simple experimental arrangement for measuring the vapour pressures and sublimation

enthalpies by the Knudsen effusion method: Application to DNA and RNA bases

NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH A 560: 219-223

(2006)

5.) Winstead C. and McKoy V.,

Low-energy electron collisions with gas-phase uracil

J. CHEM. PHYS. 125, 174304 (2006)

6.) Huo W. M., Dateo C.E. and Fletcher G. D.

Molecular Data for a Biochemical Model of DNA Damage: Electron Impact Ionization

and Dissociative Ionization Cross Sections of DNA Bases and Sugar-Phosphate Backbone

NAS Technical Report; NAS-06-009 pp. 1-23 August (2006)

7.) Huo W.M, Dateo C.E. and Fletcher G.D.

Molecular data for a biochemical model of DNA damage: electron impact ionization and

dissociative ionization cross sections of DNA bases and sugar-phosphate backbone

RADIAT. MEASUREMENTS 41 1202-1208 (2006)

8.) Winstead C, McKoy V

Interaction of low-energy electrons with the purine bases, nucleosides, and nucleotides of

DNA

J. Chem. Phys. 125 244302 (2006)


Calculated cross sections for electron elastic and inelastic scattering from DNA and RNA

Bases

PHYS. LETT. A 360: 707-712 (2007)

10.) Zappa F, Denifl S, Maehr I, Lecointre J, Rondino F, Echt O, Maerk T D, Scheier P

Electron impact ionization of thymine clusters embedded in superfluid helium droplets

EUROPEAN PHYSICAL JOURNAL D 43 (1-3): 117-120 JUL 2007

11.) Dingfelder M

Track structure: Time evolution from physics to chemistry

RADIATION PROTECTION DOSIMETRY 122: 16-21 (2006)

12. ) Peudon A, Edel S, Terrissol M

Molecular basic data calculation for radiation transport in chromatin

RADIATION PROTECTION DOSIMETRY 122: 128-135 (2006 )





14.) Panajotovic R, Michaud M, Sanche L

Cross sections for low-energy electron scattering from adenine in the condensed phase

PHYS. CHEM. CHEM. PHYS. 9: 138-148 (2007 )

15.) Tonazni S

Electron-initiated chemistry in polyatomic molecules

PhD Thesis, University of Colorado, Department of Chemistry and Biochemistry and

JILA Colorado 2006

16.) Vinodkumar M,Limbachiya C, Joshipura K N, Mason N

Electron impact ionization cross sections for uracil

XV International Symposium on Electron-Molecule Collisions and Swarms (Reading,

2007) Book of Abstracts p. 33

17.) Winstead C, McKoy V, d’ Almeida Sanchez S

Interaction of low-energy electrons with the pyrimidine bases and nucleosides of DNA

J. CHEM. PHYS. 127: 085105 (2007)

18.) T. Solomun and T. Skalicky

The interaction of a protein–DNA surface complex with low-energy electrons

CHEM. PHYS. LETT. 453 (2008) 101-104

19.) V. McKoy, and C. Winstead

Interactions of slow electrons with biomolecules

J. PHYS.: CONF. SER. 88, 012072 (2007)

20.) Sasndrine Edel

Modelisation du transport des photons et dea electrons dans l’AND plasmide

PhD Thesis, Universite Toulouse III- Paul Sabatier 2006

21.) E. Surdutovich, G. Setzler, W. E. Kauppila, S. J. Rehse, and T. S. Stein

Measurements of total cross sections for positron scattering by uracil molecules

PHYS. REV. A 77, 054701 (2008)

22.) J. W. McConkey, C.P. Malone, P.V. Johnson, C. Winstead, V. McKoy, I. Kanik

Electron impact dissociation of oxygen-containing molecules – A critical review

PHYS. REP. 466 (2008) 1–103

23.) Śmiałek M

Damage to DNA Induced by Low Energy Electrons and Photons: Mechanisms and

Analysis At the Molecular Level

PhD Thesis, The Open University 2007

24.) Winstead C and McKoy V

Resonant interactions of slow electrons with DNA constituents

RADIAT. PHYS. CHEM. 77 1258– 1264 (2008)

25.) Dal Cappello C, Hervieux, P A Charpentier I, and Ruiz-Lopez F

Ionization of the cytosine molecule by protons: Ab initio calculation of differential

and total cross sections

PHYS. REV. A 78, 042702 (2008) 26.) D. A. Eastham, P. Edmondson, S. Greene, S. Donnelly, E. Olsson, K. Svensson, and A.

Bleloch

A design for a subminiature, low energy scanning electron microscope with atomic

resolution

J. APPL. PHYS. 105, 014702 (2009)

27.) A. Dora, J. Tennyson, L. Bryjko, and T. van Mourik

R-matrix calculation of low-energy electron collisions with uracil

J. CHEM. PHYS. 130, 164307 (2009)

28.) J. B. Maljković, A. R. Milosavljević, F. Blanco, D. Šević, G. García, and B. P. Marinković

Absolute differential cross sections for elastic scattering of electrons from pyrimidine

PHYS. REV. A 79, 052706 (2009)

29.) K. Gokhberg, L.S. Cederbaum

Environment assisted electron capture

J. PHYS. B 42, 231001 (2009)

30.) L. M. Zhang, Z. Y. Tan

A new calculation on spectrum of direct DNA damage induced by low-energy electrons

RADIAT. ENVIRON. BIOPHYS. 49, 15-26 (2010)

31.) J. Tabet, S. Eden, S. Feil, H. Abdoul-Carime, B. Farizon, M. Farizon, S. Ouaskit, T. D.

Mark

Absolute total and partial cross sections for ionization of nucleobases by proton impact in

the Bragg peak velocity range

PHYS. REV. A 82, 022703 (2010)

32.) M. Bazin, M. Michaud and L. Sanche

Absolute cross sections for electronic excitations of cytosine by low energy electron

impact

J. PHYS. CHEM. 133 (2010) 155104

33.) C.J. Colyer, S.M. Bellm, F. Blanco, G. Garcia, and B. Lohmann

Elastic electron scattering from DNA bases: cytosine and thymine

J. PHYS. CONFERENCE SERIES 288 (2011) 012014

34.) C. J. Colyer, S. M. Bellm, F. Blanco, G. Garcia, and B. Lohmann

Elastic electron scattering from the DNA bases cytosine and thymine

PHYS. REV. A 84 (2011) 042707

35.) C.J. Colyer

Electronic collisions with molecules of biological relevance

PhD Thesis University of Adelaide 2011

36.) S.M. Bellm, C.J. Colyer, B. Lohmann, and C. Champion

Experimental and theoretical study of the triple-differential cross section for electron-

impact ionization of thymine molecules

PHYS. REV. A 85 (2012) 022710

37.) M. Michaud, M. Bazin and L. Sanche

Measurement of inelastic cross sections for low-energy electron scattering from DNA

bases

INT. J. RADIAT. BIOL. 88 (2012) 15-21

38.) A. Sarfraz, K. Rademann, W. Christen

Pulsed supersonic beams with nucleobases

ANAL. BIOANAL. CHEM. 404 (2012) 2087-2090

39.) C.J. Coyler, S.M. Bellm, F. Blanco, G. Garcia, and B. Lohmann

Elastic electron scattering from the DNA bases: cytosine and thymine


40.) M. Vinodkumar and C. Limbachiya

Electron impact total and ionization cross-sections for DNA based compounds

MOL. PHYS. 111 (2013) 213-221

41.) C. Champion

Quantum-mechanical predictions of electron-induced ionization cross sections of DNA

components

J. CHEM. PHYS. 138 (2013) 184306

42.) Adrian Keller, Janina Kopyra, Kurt V Gothelf and Ilko Bald

Electron-induced damage of biotin studied in the gas phase and in the condensed phase

at a single-molecule level

NEW J. PHYS 15 (2013) 083045

43.) Omar Boulanouar, Michel Fromm, Andrew D. Bass, Pierre Cloutier, and Léon Sanche

Absolute cross section for loss of supercoiled topology induced by 10 eV electrons in

highly uniform /DNA/1,3-diaminopropane films deposited on highly ordered pyrolitic

graphite

J. CHEM. PHYS. 139 (2013) 055104

44.) K. Żebrowski

Potencjały efektywne dla rozpraszania elektronów na atomach

Rozprawa Doktorska, UMK, Toruń 2013

45.) Peter J.M. van der Burgt

Electron impact fragmentation of cytosine: partial ionization cross sections for positive

fragments

EUR. PHYS. J. D 68 (2014) 135

46.) Bull, J.N., Lee, J.W.L., Vallance, C.

Absolute electron total ionization cross-sections: Molecular analogues of DNA and RNA

nucleobase and sugar constituents

PHYS. CHEM. CHEM. PHYS. 16 (2014) 10743

47.) B. Barc, M. Ryszka, J.-C. Poully, E. Jabbour Al Maalouf, Z. el Otell, J. Tabet, R.

Parajuli, P.J.M. van der Burgt, P. Limão-Vieira, P. Cahillane, M. Dampc, N.J. Mason, S.

Eden

Multi-photon and electron impact ionisation studies of reactivity in adenine–water

clusters


48.) M. Rezaee, D.J. Hunting, L. Sanche

Correlation between energy deposition and molecular damage from Auger electrons: A

case study of ultra-low energy (5-18 eV) electron interactions with DNA

MED. PHYS. 41 (2014) 072502

49.) P.J.M. van der Burgt, F. Mahon, G. Barrett, and M.L. Gardziel

Electron impact fragmentation of thymine: partial ionization cross sections for positive

fragments

EUR. PHYS. J. D 68 (2014) 151

50.) A. Keller, J. Rackwitz, E. Cauet, J. Lievin, T. Korzdorfer, A. Rotaru, K.V. Gothelf, F.

Besenbacher and I. Bald

Sequence dependence of electron-induced DNA strand breakage revealed by DNA

nanoarrays

SCIENTIFIC REPORTS 4 (2014) 7391

51.) M. U. Bug

Nanodosimetric particle track simulations in water and DNA media

PhD Thesis, University of Wollongong 2014

52.) I.I. Shafranyosh, Y.Y. Svida, M.I. Sukhoviya, M.I. Shafranyosh, B.F. Minaev, G.V.

Baryshnikov, and V.A. Minaeva

Absolute effective cross sections of ionization of adenine and guanine molecules by

electron impact

TECHNICAL PHYSICS 60 (2015) 1430-1436

53.) F. Blanco and G. Garcia

Interference effects in the electron and positron scattering from molecules at intermediate

and high energies

CHEMICAL PHYSICS LETTERS 635 (2015) 321-327

54.) P.J.M. van der Burgt, S. Finnegan, S. Eden

Electron impact fragmentation of adenine: partial ionization cross sections for positive

fragments


55.) C. Champion, M.A. Quinto, and P.F. Weck

Electron- and proton-induced ionization of pyrimidine


56.) L. Chiari, A. Zecca, F. Blanco, G. Garcia, and M.J. Brunger

Cross sections for positron and electron collisions with an analog of the purine

nucleobases: Indole


57.) F. Blanco, L. Ellis-Gibbins, G. Garcia

Screening corrections for the interference contributions to the electron and positron

scattering cross sections from polyatomic molecules

CHEM. PHYS. LETT. 645 (2016) 71-75

58.) M.A. Rahman and E. Krishnakumar

Absolute partial and total electron ionization cross sections of uracil


59.) M A Rahman and E Krishnakumar

Absolute Electron Ionization cross sections for Cytosine

J. Phys.: Conf. Ser. 635 (2015) 072063

60.) C Champion and M A Quinto

Electron-induced ionization of DNA components

J. Phys.: Conf. Ser. 635 (2015) 072043

61.) M.U. Bug, W.Y Baek, H. Rabus, C. Villagrasa, S. Meylan, A.B. Rosenfeld

An electron-impact cross section data set (10 eV-1 keV) of DNA constituents based on

consistent experimental data: A requisite for Monte Carlo simulations

RADIAT. PHYS. CHEM. 130 (2017) 459-479


Communication: Electron ionization of DNA bases

J. CHEM. PHYS. 144 (2016) 161102

63.) W. Liu, Z. Tan, L. Zhang, and C. Champion

Calculations on spectrum of direct DNA damage induced by low-energy electrons

including dissociative electron attachment

RADIAT. ENVIRON. BIOPHYS. 56 (2017) 99-110

64.) M.D. Gurung and W.M. Ariyasinghe

Total electron scattering cross sections of some important biomolecules at 0.2–6.0 keV

energies

RADIAT. PHYS. CHEM 141 (2017) 1-7

65.) Z. Francis, Z. El Bitar, S. Incerti, M. A. Bernal, M. Karamitros, H. N. Tran

Calculation of lineal energies for water and DNA bases using the Rudd model cross

sections integrated within the Geant4-DNA processes

JOURNAL OF APPLIED PHYSICS 122 (2017) 014701

66.) Wade Tattersall

Positron cross sections and transport in water

PhD Thesis, Australian National University (2016)





68.) Yi Zheng and Léon Sanche

Effective and absolute cross sections for low-energy (1-30 eV) electron interactions with

condensed biomolecules

APPL. PHYS. REV. 5 (2018) 021302

69.) Hong Qi Tan, Zhaohong Mi, and Andrew A. Bettiol

Simple and universal model for electron-impact ionization of complex biomolecules

PHYS. REV. E 97 (2018) 032403

70.) Wei Liu, Zhenyu Tan, Liming Zhang, Christophe Champion

Investigation on the correlation between energy deposition and clustered DNA damage

induced by low-energy electrons

RADIAT. ENVIRON. BIOPHYS. 57 (2018) 179–187

71.) Anna Ostroverkh, Anatoly Zavilopulo, Otto Shpenik

Ionization of guanine, adenine and thymine molecules by electron impact

EUR. PHHYS. J. D 73 (2019) 38

ARTICLE 16

D- ion desorption from condensed CD4, C2D2, C2D4, C2D6 and C3D8 molecules induced by

electron impact

P. Możejko, L. Parenteau, A.D. Bass, and L. Sanche

RADIAT. PHYS. CHEM. 68 (2003) 215-219

Cited in:

1.) Hedhili M N, Cloutier P, Bass A D, Madey T E, Sanche L

Electron stimulated desorption of anionic fragments from films of pure and electron-

irradiated thiophene

J. CHEM. PHYS. 125: 094704 (2006 )

2.) “Occurrence and chemistry of organic compounds in Hanford site waste tanks”

US. Department of Energy Raport no. RPP-21854

3.) Kristin R. Shepperd

„Low-energy elektron induces processes In hydrocarbon films adsorbed on silicon

surfaces” PhD Thesis, Georgia Institute of Technology (2009)

4.) K.R. Shepperd, C.D. Lane, T. M. Orlando

Low-energy electron-stimulated desorption of cations and neutrals from Si(111)-(7 x 7):

C2D2

J. CHEM. PHYS. 132, 214704 (2010)

ARTICLE 17

Electron elastic collisions with C3F6 molecule

P. Możejko, and Cz. Szmytkowski

TASK QUARTERLY 7 (2003) 171-178

Cited in:

1.) WeiZong Wang, Yi Wu, MingZhe Rong, László Éhn and Ivan Černušák

Theoretical computation of thermophysical properties of high-temperature F2, CF4, C2F2,

C2F4, C2F6, C3F6 and C3F8 plasmas

J. PHYS. D: Applied Physics 45

2.) Nia Metyana Wardani, Muhammad Nur, Asep Yoyo Wardaya

Total Electron Scattering Cross Section by Diatomic Molecules

Advances in Physics Theories and Applications 54 (2016) 24-29

ARTICLE 18

Measurements of absolute total cross sections for electron scattering from triatomic polar

molecules: SO2 and H2S

Cz. Szmytkowski, P. Możejko, and A. Krzysztofowicz

RADIAT. PHYS. CHEM. 68 (2003) 307-311

Cited in:

1.) Cz. Szmytkowski, L. Klosowski, A. Domaracka, M. Piotrowicz, and E. Ptasińska-Denga


J. PHYS. B 37: 1833–1840 (2004)

2.) M. Gupta, K.L. Baluja

Low-energy elastic and inelastic scattering of electrons from SO2 using the R-matrix

method


3.) D. Shi, J. Sun, Y. Liu, Z. Zhu, and X. Yang,

Total cross sections for electrons scattering from C2F4 and SO2 at 30-5000 eV:

considering the geometric shielding effect

CHIN. OPT. LETT. 4: 192-195 (2006)

4.) D. Shi, Y. Liu, J. Sun, H. Ma and Z. Zhu

Geometric shielding corrections for calculation of electron scattering by CO2, C2H2,

CHCl3, CH2Cl2, CH3Cl, CHF3, CH2F2 and CH3F at 30–5000 eV

RADIAT. PHYS. CHEM. 77 (2008) 528-536


SiH4 Molecules for Intermediate Energy Electrons” M.Sc. Thesis Baylor University

(2004)

6.) L.M. Brescansin, L.E. Machado, M-T Lee, H. Cho and Y.S. Park

Absorption effects in intermediate-energy electron scattering by hydrogen sulphide

J. PHYS. B 41 185201 (2008)

7.) K.N. Joshipura and S. Gangopadhyay

Electron collisions with sulfur compounds SO, SO2 and SO2AB (A, B = Cl, F):

various total cross sections


8.) N.C Jones, D. Field, S.L. Lunt and J-P Ziesel

Scattering of cold electrons by ammonia, hydrogen sulfide, and carbonyl sulfide

PHYS. REV. A 78: 042714 (2008)

9.) G.G. Raju



10.) S.J. Brotton, E. Vyskocil, W. Kedzierski, and J.W. McConkey

Dissociative excitation of H2S by electron impact

PHYS. REV. A 79 (2009) 042709

11.) D.H. Shi, J.F. Sun, Y.F. Liu, Z.L. Zhu, and H. Ma


SO2, SF4, SF6, SF5CF3, SO2Cl2 and SO2ClF at 30–5000 eV

EUR. PHYS. J. D 54 (2009) 43–50

12.) John S, Hamann JC, Muknahallipatna SS, Legowski S, Akerman JF, Aryle MD

Energy efficiency of hydrogen sulfide decomposition in a pulsed corona discharge reactor

CHEM. ENG. SCIENCE 64 (2009) 4826-4834

13.) C. Limbachiya, M. Vinodkumar, and N. Mason

Calculation of electron-impact rotationally elastic total cross sections for NH3, H2S and

PH3 over the energy range from 0.01 eV to 2 keV

PHYS. REV A 83 (2011) 042708

14.) L.E. Machado, R.T. Sugohara, A.S. dos Santos, M.-T. Lee, I. Iga, G.L.C. de Souza,

M.G.P. Homem, S.E. Michelin and L.M. Brescansin

Absorption effects in electron-sulfur-dioxide collisions

PHYS. REV. A 84 (2011) 032709

15.) G. G. Raju


CRC Press 2011

16.) M. Vinodkumar, C. Limbachiya, A. Barot, and N. Mason

Theoretical total cross sections for e-SO2 scattering over a wide energy range (0.1-2000

eV) revealing a 3.4-eV shape resonance

PHYS. REV. A 86 (2012) 012706

17.) Tan Xiao-Ming and Wang Yan-Wen

Total cross sections for electron scattering from sulfur compounds

CHIN. PHYS. B 22 (2013) 023403

18.) H. Aouchiche, F. Medegga, C. Champion

Doubly differential and integral cross sections for electron elastic scattering by hydrogen

sulfide

NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH B: Beam

Interactions with Materials and Atoms 333 (2014) 113

19.) S.V. Kudryashov, A.Y. Ryabov, A.N. Ochered’ko, K.B. Krivtsova, and G.S. Shchyogoleva

Removal of hydrogen sulfide from methane in a barrier discharge

PLASMA CHEM. PLASMA PROCESS (2014) DOI 10.1007/s11090-014-9590-9

20.) H. Bhutadia, M. Vinodkumar, H. Desai

Electron Impact Scattering Studies on Targets of Varied Interest

Lambert Academic Publishing (2015)



wieloatomowych


22.) Кудряшов, Сергей Владимирович, Рябов, Андрей Юрьевич, Очередько,

Андрей Николаевич

Окислительная плазмохимическая конверсия сероводорода в атмосфере

газообразных алканов в присутствии О2 и CO2

Известия Томского политехнического университета Инжиниринг георесурсов 327

(2016) 76-85

23.) Andrey N. Ochered’ko, Sergey V. Kudryashov, Andrey Yu. Ryabov

Plasma-Chemical Conversion of Hydrogen Sulfide in the Atmosphere of Methane with

Addition of CO2 and O2

Plasma Chemistry and Plasma Processing 38 (2018) 135–146

24.) Sergey V. Kudryashov, Andrey Yu. Ryabov, Andrey N. Ochered’ko, and Ekaterina E.

Sirotkina

Elimination of hydrogen sulfide in the presence of carbon dioxide from methane in

dielectric barrier discharge

AIP Conference Proceedings 2051, 020157 (2018)

ARTCILE 19

Intrinsic and extrinsic factors in anion electron-stimulated desorption: D- from deuterated

hydrocarbons condensed on Kr and water ice films

P. Mozejko, A.D. Bass, L. Parenteau, and L. Sanche

J. CHEM. PHYS. 121 (2004) 10181-10189

Cited in:

1.) Pan X, Cloutier P, Hunting D, Sanche L

Dissociative electron attachment to DNA

PHYS. REV. LETT. 90: 208102 (2003)

2.) Ptasinska S, Sanche L

Low energy electron stimulated desorption of ions from whole human blood


3.) Ptasinska S, Sanche L

Dissociative electron attachment to abasic DNA

PHYS. CHEM. CHEM. PHYS. 9: 1730-1735 (2007)

4.) Cloutier P, Sicard-Roselli C, Escher E, Sanche L

Low-energy (3-24 eV) electron damage to the peptide backbone

J. PHYS. CHEM. B 111: 1620-1624 (2007)

5.) Kristin R. Shepperd

„Low-energy elektron induces processes In hydrocarbon films adsorbed on silicon

surfaces” PhD Thesis, Georgia Institute of Technology (2009)

6.) Nasrin Mirsaleh-Kohan, Andrew D. Bass, and Léon Sanche

Effect of morphology of thin DNA films on the electron stimulated desorption of anions

J. CHEM. PHYS. 134 (2011) 015102

7.) S.V. Kumar, T. Pota, D. Peri, A.D. Dongre and B.J. Rao

Low energy electron induced damage to plasmid DNA pQE300

J. CHEM. PHYS. 137 (2012) 045101

8.) Q. Bao, Y. Chen, Y. Zheng and L. Sanche

Cisplatin radiosensitization of DNA irradiated with 2-20 eV electrons: role of transient

anions

J. PHYS. CHEM. C 118 (2014) 15516

9.) Stanislav A. Pshenichnyuk and Alexei S. Komolov

Why Can Unnatural Electron Acceptors Protect Photosynthesizing Organisms but Kill the

Others?

J. Phys. Chem. B 121 (2017) 749–757

10.) Yanfang Dong, Limei Zhou, Qinfen Tian, Yi Zheng, and Léon Sanche

Chemoradiation Cancer Therapy: Molecular Mechanisms of Cisplatin Radiosensitization

J. Phys. Chem. C 121 (2017) 17505–17513

11.) L. Ellis-Gibbings, A. D. Bass, P. Cloutier, G. García and L. Sanche

Electron stimulated desorption from condensed pyrimidine and pyridazine

Phys. Chem. Chem. Phys. 19 (2017) 13038-13048

12.) Stanislav A. Pshenichnyuk, Alberto Modelli, Alexei S. Komolov

http://pubs.acs.org/author/Dong%2C+Yanfang

http://pubs.acs.org/author/Zhou%2C+Limei

http://pubs.acs.org/author/Tian%2C+Qinfen

http://pubs.acs.org/author/Zheng%2C+Yi

http://pubs.acs.org/author/Sanche%2C+Léon

Interconnections between dissociative electron attachment and electron-driven biological

processes

INT. REV. PHYS. CHEM. 37 (2018) 125-170

ARTICLE 20

Electron collisions with nitrogen trifluoride (NF3) molecules

Cz. Szmytkowski, A. Domaracka, P. Możejko, E. Ptasińska-Denga, Ł. Kłosowski,

M. Piotrowicz, and G. Kasperski

PHYS. REV. A 70 (2004) 032707/1-7

Cited in:

1.) Domaracka A, Ptasińska-Denga E, Szmytkowski Cz


PHYS. REV. A 71: 052711 (2005)

2.) Jones N C, Field D, Lunt S L, Ziesel J -P

Scattering of cold electrons by ammonia, hydrogen sulfide, and carbonyl sulfide

PHYS. REV. A 78: 042714 (2008)

3.) Raju G G



4.) D. H. Shi, J. F. Sun, Z. L. Zhu and Y. F. Liu

Total cross sections of electron scattering by molecules NF3, PF3, N(CH3)3, P(CH3)3,

NH(CH3)2, PH(CH3)2, NH2CH3 and PH2CH3 at 30–5000 eV

EUR. PHYS. J. D 57 179-186 (2010)

5.) E.R. Latimer

Experimental studies of surface and gas-phase processes relevant to the interstellar

medium and planetary atmospheres

PhD Thesis UCL London 2010

6.) G. G. Raju


CRC Press 2011

7.) M.A. Rahman, S. Gangopadhyay, C. Limbachiya, K.N. Joshipura and E. Krishnakumar

Electron ionization of NF3

INT. J. MASS SPECTROM. 319-320 (2012) 48-54

8.) Hong-Kai Li, Lei Xia, Xian-Jin Zeng and Shan Xi Tian

Two- and Three-Body Dissociation Dynamics of Temporary Negative Ion NF3-

J. PHYS. CHEM. A 117 3176-3182 (2013)

9.) Biplab Goswami, Rahla Naghma, and Bobby Antony

Cross sections for electron collisions with NF3

PHYS. REV. A 88 (2013) 032707

10.) J.-M. Li, Y.-R. Miao, J.-K. Deng and C.-G. Ning

Electron momentum spectroscopy of NF3

CHIN. PHYS. B 23 (2014) 113403



wieloatomowych




13.) John E Inglesfield

Time-dependent embedding

in The Embedding Method for Electronic Structure IOP Publishing Ltd 2015 Pages 10-1

to 10-34

14.) James R Hamilton, Jonathan Tennyson, Shuo Huang and Mark J Kushner

Calculated cross sections for electron collisions with NF3, NF2 and NF with applications

to remote plasma sources

Plasma Sources Science and Technology 26 (2017) 065010

15.) Terri E. Field-Theodore and David J. D. Wilson

A coupled cluster study of the magnetisability, rotational g-tensor and quadrupole

moment of NF3, PF3 and AsF3

MOLECULAR PHYSICS 115 (2017) 2285-2299

16.) Grzegorz P. Karwasz

ELECTRON SCATTERING ON ATOMS AND MOLECULES: SEARCH FOR SEMI-

EMPIRICAL INDICATIONS

ICAMDATA Program Book Gunsan (2016) 28

17.) Mi-Young Song Jung-Sik Yoon Hyuck Cho, Grzegorz P. Karwasz, Viatcheslav

Kokoouline, Yoshiharu Nakamura, James R. Hamilton and Jonathan Tennyson

Cross Sections for Electron Collisions with NF3

Journal of Physical and Chemical Reference Data 46 (2017) 043104 18.) K.N. Joshipura, N. Mason



http://iopscience.iop.org/book/978-0-7503-1042-0

ARTICLE 21

Cross sections for electron scattering from selected components of DNA and RNA

P. Możejko, and L. Sanche

RADIAT. PHYS. CHEM. 73: (2005) 77-84

Cited in:

1.) Sanche L.

Low energy electron-driven damage in biomolecules

EUR. PHYS. J. D 35: 367-390 (2005)

2.) Caron L., Sanche L.

Diffraction in resonant electron scattering from helical macromolecules: Effects of the

DNA backbone

PHYS. REV. A 72: 032726 (2005)

3.) Aflatooni K., Scheer A. M., and Burrow P. D.,

Total dissiociative electron attachment cross sections for molecular constituents of DNA

J. CHEM. PHYS. 125: 054301 (2006)

4.) Winstead C, Mckoy V

Low-energy electron scattering by deoxyribose and related molecules

J. CHEM. PHYS. 125: 074302 (2006)

5.) Huo W. M., Dateo C.E. and Fletcher G. D.

Molecular Data for a Biochemical Model of DNA Damage: Electron Impact Ionization

and Dissociative Ionization Cross Sections of DNA Bases and Sugar-PhosphateBackbone

NAS Technical Report; NAS-06-009 pp. 1-23 August (2006)

6.) A.R. Milosavljevi´c, F. Blanco, D. Sevi´c, G. Garcia, and B.P. Marinkovic

Elastic scattering of electrons from tetrahydrofurfuryl alcohol

EUR. PHYS. J. D 40, 107–114 (2006)

7.) Huo W.M, Dateo C.E. and Fletcher G.D.

Molecular data for a biochemical model of DNA damage: electron impact ionization and

dissociative ionization cross sections of DNA bases and sugar-phosphate backbone

RADIAT. MEASUREMENTS 41 1202-1208 (2006)

8.) Milosavljević A.R.

Electron interaction with DNA deoxyribose analogue molecules

“The Physics of Ionized Gases SPIG 2006”, Eds. L. Hadzievski, B.P. Marinkowić, N.S.

Simonović AIP Conference Proceeding 876 (2006) 81-87



DNA

J. CHEM. PHYS. 125 244302 (2006)



Bases

PHYS. LETT. A 360: 707-712 (2007)

11.) Colyer C J, Vizcaino V, Sullivan J P, Brunger M J, Buckman S J

Absolute elastic cross-sections for low-energy electron scattering from tetrahydrofuran

New J. Phys. 9: 41 (2007)

12.) Akar A, Gumus H, Okumusoglu NT

Total electron stopping powers and CSDA-ranges from 20 eV to 10 MeV electron

energies for components of DNA and RNA

ADVANCES IN QUANTUM CHEMISTRY 52: 277-288 (2007)

13.) Yang T C, Su G L, Ning C, Deng J K, Wang F, Zhang S, Ren X G, Huang Y R

New diagnostic of the most populated conformer of tetrahydrofuran in the gas phase

J. PHYS. CHEM. A 111: 4927-4933 (2007)

14.) Kumar A, Sevilla M D

Low-energy electron attachment to 5 '-thymidine monophosphate: Modeling single strand

breaks through dissociative electron attachment

J. PHYS. CHEM. B 111: 5464-5474 (2007)





16.) F.C. Romarly, M.H.F. Bettega and M.A.P. Lima

Polarization effects on electronic excitation of molecules by low-energy electron impact:

Study on e−-furan scattering

PHYS. REV. A 77, 012717 (2008)

17) B.P. Marinković, D. Filipović, V. Pejcev, D. Sević, A.R. Milosavljević, D. Pavlović, S.

Milisavljević, P. Kolarz, and M. Pardovska

Low Energy Electron Interactions with Bio-Molecules

In Photonic, Electronic and Atomic Collisions: Proceedings of the XXIV International

Conference by Pablo D. Fainstein, Marco Aurelio P. Lima, Jorge E. Miraglia, and

Educardo C. Montengro , World Scientific Publishing 2006 pp 336-343

18) E.J. Ma, Y.G. Ma, X.Z. Cai et al

Electron scattering by C4H10 and C6H6 in the energy range 100-1000 eV

CHIN. PHYS. LETT. 25 (2008) 97-100

19) Y. Zheng, D.J. Hunting, P. Ayotte et al

Radiosensitization of DNA by gold nanoparticles irradiated with high-energy electrons

RADIAT. RES. 169 (2008) 19-27

20.) Sasndrine Edel

“Modelisation du transport des photons et dea electrons dans l’AND plasmide”

PhD Thesis, Universite Toulouse III- Paul Sabatier 2006

21.) A.R. Milosavljevic, D. Ševic, and B.P. Marinkovic

Electron interaction with deoxyribose analogue gaseous phase

J. PHYS: CONF. SERIES 101 012014 (2008)

22.) J.W. McConkey, C.P. Malone, P.V. Johnson, C. Winstead, V. McKoy, I. Kanik


PHYS. REP. 466 (2008) 1–103

23.) Małgorzata Śmiałek „Damage to DNA Induced by Low Energy Electrons and Photons:

Mechanisms and Analysis At the Molecular Level”, PhD Thesis, The Open University

2007

24.) Shi D H, Liu Y F, Ma H, Yu B H, Sun J F and Zhu Z L

Total cross sections of electron scattering by C4H8O, C5H10O2, C6H5F, C6H5Cl, C6F5Cl,

C6H4(COH)F and C4H8O at 30-5000 eV

EUR. PHYS. J D 49: 51-57 (2008)



RADIAT. PHYS. CHEM. 77 1258– 1264 (2008)

26.) A. Giuliani1, P. Limao-Vieira, D. Duflot, A. R. Milosavljevic, B. P. Marinkovic, S.V.

Hoffmann, N. Mason, J. Delwiche, and M.-J. Hubin-Franskin

Electronic states of neutral and ionized tetrahydrofuran studied by VUV spectroscopy and

ab initio calculations

EUR. PHYS. J. D 51, 97 (2009)

27.) C.G. Ning, Y.R. Huang, S.F. Zhang, J.K. Deng, K. Liu, Z.H. Luo, and F. Wang

Experimental and Theoretical Electron Momentum Spectroscopic Study of the Valence

Electronic Structure of Tetrahydrofuran under Pseudorotation

J. PHYS. CHEM. A 112 (2008) 11078-11087

28.) A. Kumar and M.D. Sevilla

Radiation Effects on DNA: Theoretical Investigations of Electron, Hole and Excitation

Pathways to DNA Damage

In: “Radiation Induced Molecular Phenomena in Nucleic Acids: A Comprehensive

Theoretical and Experimental Analysis (Challenges and Advances in Computational

Chemistry and Physics)”

Eds. Manoj Shukla and Jerzy Leszczynski Springer 2008 pp 577-618

29.) Milosavljevic A R, Blanco F, Maljkovic J B, Sevic D, Garcia G, Marinkovic B P

Absolute cross sections for elastic electron scattering from 3-hydroxytetrahydrofuran

NEW JOURNAL OF PHYSICS 10: 103005 (2008)

30.) Fuss M, Munoz A, Oller JC, Blanco F, Almeida D, Limao-Vieira P, Do TPD, Brunger MJ,

Garcia G

Electron-scattering cross sections for collisions with tetrahydrofuran from 50 to 5000 eV

PHYS. REV. A 80 052709 (2009)

31.) M. G. P. Homem, R. T. Sugohara, I. P. Sanches, M. T. Lee, and I. Iga

Cross sections for elastic electron collisions with tetrahydrofuran

PHYS. REV. A 80, 032705 (2009)

32.) J.C. Poully, J.P. Schermann, N. Nieuwjaer, F. Lecomte, G. Gregoire, C. Desfrancois,

G.A. Garcia, L. Nahon, D. Nandi, L. Poisson, and M. Hochlaf

Photoionization of 2-pyridone and 2-hydroxypyridine


33.) R.F. da Costa, M.H.F. Bettega, M.T.D. Varella, and M.A.P. Lima

Electron collisions with alpha-D-glucose and beta-D-glucose monomers

J. CHEM. PHYS. 132 (2010) 124309

34.) M. A. Khakoo, J. Muse, K. Ralphs, R. F. da Costa, M. H. F. Bettega, M. A. P. Lima

Low-energy elastic electron scattering from furan

PHYS. REV. A 81, 062716 (2010)

35.) C.J. Colyer, S.M. Bellm, B. Lohmann, G.F. Hanne, O. Al-Hagan, D.H. Madison, C.G.

Ning

Dynamical (e, 2e) studies using tetrahydrofuran as a DNA analog

J. CHEM. PHYS. 133 (2010) 124302

36.) E.M. Oliveira, M.H.F. Bettega, S d’A. Sanchez, M.A.P. Lima, M.T. do N. Varella

Espalhamento de eletrons de baixa energia por moleculas de fenol

VIII Workshop em Fisica Molecular e Espectroscopia Curtiba 2010 QUA 16

37.) M. Dampc, E. Szymańska, B. Mielewska, and M. Zubek

Ionization and ionic fragmentation of tetrahydrofuran molecules by electron collisions

J. PHYS. B 44 (2011) 055206

38.) C.J. Colyer



39.) L.R. Hargreaves, R. Albaridy, G. Serna, M.C.A. Lopes and M.A. Khakoo

Electron-impact vibrational excitation of furan

PHYS. REV. A 84: 062705 (2011)

40.) L.G. Caron and L. Sanche

Theoretical Studies of electron interactions with DNA and its subunits: From

tetrahydrofuran to plasmid DNA

In “Low-Energy Electron Scattering from Molecules, Biomolecules and Surfaces”

Eds. Peter Carsky and Roman Curik, pp. 161-230

CRC Press Taylor & Francis Group (2011)

41.) C. Winstead and V. McKoy

Electron-biomolecule collision studies using the Schwinger Multichannel Method

In: “Radiation Damage in Biomolecular Systems”

Eds. G. Garcia Gomez-Tejedor and M.C. Fuss, pp.87-113

42.) S. F. Dos Santos

Theoretical and computational studies of dissociative recombination of H+3 with low

kinetic energy electrons: time-independent and time-dependent approach

PhD Thesis, the University of Central Florida, Orlando, Florida 2009

43.) M.C. Fuss, R. Colmenares, A.G. Sanz, A. Munoz, J.C. Oller, F. Blanco, T.P.T Do, M.J.

Brunger, D. Almeida, P. Limao-Vieira and G. Garcia

Electron interactions with tetrahydrofuran


44.) M.E. Galassi, C. Champion, P.F. Weck, R.D. Rivarola, O. Fojon and J. Hansen

Quantum-mechanical predictions of DNA and RNA ionization by energetic proton beams

PHYS. MED. BIOL. 57 (2012) 2081-2099

45.) M.U. Bug, W.Y. Baek, and H. Rabus

Simulation of ionisation clusters formed in nanometric volumes of the deoxyribose-

substitute tetrahydrofuran

INT. J. RADIAT. BIOL. 88 (2012) 137-142

46.) W.Y. Baek, M. Bug, H. Rabus, E. Gargioni and B. Grosswendt

Differential elastic and total electron scattering cross sections of tetrahydrofuran

PHYS. REV. A 86 (2012) 032702

47.) P. Bhowmik, K.N. Joshipura, and S. Pandya

Electron impact cross sections for surrogates of DNA sugar phosphate backbone


48.) M.C. Fuss, A.G. Sanz, M. Munoz, J.C. Oller, F. Blanco, T.P.T. Do, M.J. Brunger, D.

Almeida, P. Limao-Vieira, and G. Garcia

Electron scattering from tetrahydrofuran


49.) L. Chiari, P. Palihawadana, J.R. Machacek, C. Makochekanwa, G. Garcia, F. Blanco, R.P.

McEchran, M.J. Brunger, S.J. Buckman, and J.P. Sullivan

Experimental and theoretical cross sections for positron collisions with 3-hydroxy-

tetrahydrofuran

J. CHEM. PHYS. 138 (2013) 074302

50.) L. Chiari, E. Anderson, W. Tattersall, J.R. Machacek, P. Palihawadana, C.

Makochekanwa, J.P. Sullivan, G. Garcia, F. Blanco, R.P. McEachran, M.J. Brunger and

S.J. Buckman

Total, elastic, and inelastic cross sections for positron and electron collisions with

tetrahydrofuran

J. CHEM. PHYS. 138 (2013) 074301

51.) D. Kaur, S. Khanna, and D. Aulakh

The explicit interactions of five-membered saturated heterocyclics containing one and

two heteroatoms with single water molecule

STRUCTURAL CHEM. 24 (2013) 357-367

52.) P. Bhowmik

Theoretical studies on electron scattering processes with important atomic and molecular

targets

PhD Thesis, Sadal Patel University 2012

53.) M. Vinodkumar, Ch. Limbachiya, M. Barot, M. Swadia, A. Barot

Electron impact total ionization cross sections for all the components of DNA and RNA

molecules


54.) I. Abril, R. Garcia-Molina, P. de Vera, I. Kyriakov and D. Emfietzoglou

Inelastic collisions of energetic protons in biological media

ADV. QUANTUM CHEM. 65 (2013) 129

55.) C. Champion


components

J. CHEM. PHYS. 138 (2013) 184306

56.) H. Beg, D. Das, AS. Ash and A. Misra

Computation of plarizability, hyper-polarizability and hardness as descriptor for enol-

keto tautomerizations of 2-hydroxy pyridiness

COMPUT. THEOR. CHEM. 1017 (2013) 200-207

57.) Omar Boulanouar, Michel Fromm, Andrew D. Bass, Pierre Cloutier, and Léon Sanche

Absolute cross section for loss of supercoiled topology induced by 10 eV electrons in

highly uniform /DNA/1,3-diaminopropane films deposited on highly ordered pyrolitic

graphite

J. CHEM. PHYS. 139 (2013) 055104

58.) N.A. Garland, M.J. Brunger, G. Garcia, J. De Urquijo, R.D. White

Transport properties of electron swarms in tetrahydrofuran under the influence of an

applied electric field

PHYS. REV. A 88 (2013) 062712

59.) K. Żebrowski

Potencjały efektywne dla rozpraszania elektronów na atomach

Rozprawa Doktorska, UMK, Toruń 2013

60.) J.D. Builth-Williams

Dynamical (e,2e) Studies of Bio-Molecules

M.Sc. Thesis, Flinders University 2013

61.) F.A. Mahon

Study of electron-impact induced fragmentation of thymine

M. Sc. Thesis, NUI Maynooth 2013

62.) M. Vinodkumar , C. Limbachiya, M. Barot, A. Barot, M. Swadia

Electron impact total cross sections for components of DNA and RNA molecules


63.) H. V. Duque, L. Chiari, D. B. Jones, Z. Pettifer, G. B. da Silva, P. Limão-Vieira,

F. Blanco, G. García, R. D. White, M. C. A. Lopes, and M. J. Brunger

Intermediate-energy differential and integral cross sections for vibrational excitation in α-

tetrahydrofurfuryl alcohol

J. CHEM. PHYS. 140 (2014) 214306

64.) T. R. Dallmann, T. B. Onasch, T. W. Kirchstetter, D. R. Worton, E. C. Fortner, S. C.

Herndon, E. C. Wood, J. P. Franklin, D. R. Worsnop, A. H. Goldstein and R. A. Harley

Characterization of particulate matter emissions from on-road gasoline and diesel

vehicles using a soot particle aerosol mass spectrometer

ATMOS. CHEM. PHYS. DISCUSS. 14 (2014) 4007

65.) M. Rezaee, D.J. Hunting, L. Sanche

Correlation between energy deposition and molecular damage from Auger electrons: A

case study of ultra-low energy (5-18 eV) electron interactions with DNA

MED. PHYS. 41 (2014) 072502

66.) C. Champion, M.A. Quinto, M.U. Bug, W.Y. Baek and P.F. Weck

Theoretical and experimental quantification of doubly and singly differential cross

sections for electron-induced ionization of isolated tetrahydrofuran molecules

EUR. PHYS. J. D 68 (2014) 205

67.) H.V. Duque, L. Chiari, D.B. Jones, P.A. Thorn, Z. Pettifer, G.B. de Silva, P. Limao-Viera,

D. Duflot, M.-J. Hubin-Franskin, J. Delwiche, F. Blanco, G. Garcia, M.C.A. Lopes, K.

Ratnavelu, R.D. White, M.J. Brunger

Cross sections for electron scattering from -tetrahydrofurfuryl alcohol

CHEM. PHYS. LETT. 608 (2014) 161

68.) M.C. Fuss, A.G. Sanz, F. Blanco, P. Limao-Vieira, M.J. Brunger and G. Garcia

Differential and integral electron scattering cross sections from tetrahydrofuran (THF)

over a wide energy range: 1-10000 eV

EUR. PHYS. J. D 68 (2014) 161

69.) Ch. Limbachiya, M. Vinodkumar, M. Swadia, K.N. Joshipura and N. Mason

Electron-impact total cross sections for inelastic processes for furan, tetrahydrofuran and

2,5-dimethylfuran

MOL. PHYS. 113 (2015) 55-62

70.) M. U. Bug



71.) F. Blanco and G. Garcia

Interference effects in the electron and positron scattering from molecules at intermediate

and high energies

CHEMICAL PHYSICS LETTERS 635 (2015) 321-327

72.) T.P.T Do, H.V. Duque, M.C.A. Lopes, D.A. Konovalov, R.D. White, M.J. Brunger, and

D.B. Jones

Differential cross sections for electron-impact vibrational-excitation of tetrahydrofuran

at intermediate impact energies


73.) P. Bhowmik, R. Dawda and K.N. Josipura

ELECTRON–SCATTERING WITH POLYATOMIC MOLECULES: SCREENING

MODIFICATIONS IN GROUP ADDITIVITY RULE



74.) M. Barot, A. Barot, C. Limbachiya and M. Vinodkumar

THEORETICAL STUDY OF TOTAL IONIZATION CROSS SECTIONS FOR

DNA/RNA MOLECULE ON ELECTRON IMPACT








76.) F. Blanco, L. Ellis-Gibbins, G. Garcia

Screening corrections for the interference contributions to the electron and positron

scattering cross sections from polyatomic molecules

CHEM. PHYS. LETT. 645 (2016) 71-75

77.) Z. Nikitaki, V. Nikolov, I.V. Mavragani, I. Plante, D. Emfietzoglou, G. Iliakis, and A.

Georgakilas

Non-DBS clustered DNA lesions. Does theory colocalize with the experimental

RADIAT. PHYS. CHEM. 128 (2016) 26-35




RADIAT. PHYS. CHEM. 130 (2017) 459-479

79.) C Champion and M A Quinto

Electron-induced ionization of DNA components

J. Phys.: Conf. Ser. 635 (2015) 072043

80.) M. Swadia, Y. Thakar, M. Vinodkumar and Ch. Limbachiya

Theoretical electron impact total cross sections for tetrahydrofuran (C4H8O)

EUR. PHYS. J. D 71 (2017) 85

81.) S. Diskin

Study of Low Energy Electron-Impact Induced Ionization and Fragmentation of Uracil

M.Sc. Thesis Maynooth University 2016

82.) Lulu Zhang, Weiguo Sun, Yi Zhang, Zhixiang Fan, Shide Hu and Qunchao Fan

Predicting differential cross sections of electron scattering from tetrahydrofuran

J. PHYS. B 50 (2017) 085201

83.) M. J. Brunger

Electron scattering and transport in biofuels, biomolecules and biomass fragments

INT. REV. PHYS. CHEM. 36 (2017) 333-376


http://eprints.maynoothuniversity.ie/7532/


energies


85.) Wang Pengchao, Hu Yongjun, Zhan Huaqi, Chen Jiaxin, Jin Shan, Song Wentao, Li

Yujian

Vibrational spectroscopy of the mass-selected tetrahydrofurfuryl alcohol monomers and

its dimers in gas phase using IR depletion and VUV single photon ionization

Spectrochimica Acta Part A 185 (2017) 63-68








APPL. PHYS. REV. 5 (2018) 021302

88.) Shan Jin, Yongjun Hu, Pengchao Wang, Huaqi Zhan, Qiao Lu, Fuyi Liu and Liusi

Sheng

Hydrogen bonding and dominant conformations of hydrated sugar analogue complexes

using tetrahydrofurfuryl alcohol as the model sugar molecule


89.) Lena Mouawad, Paul-Antoine Hervieux, Claude Dal Cappello, Jérome Pansanel, Vincent

Robert and Ziad El Bitar

Triple differential cross sections for the ionization of tetrahydrofuran by electron impact

J. PHYS. B 51 (2018) 175201

90.) Nabila Yasmina Aouina, Zine-El-AbidineChaoui

Electrons and positrons elastic collisions with pyrimidine and tetrahydrofuran

APPL. RADIAT. IOTOPES 140 (2018) 347-354




ARTICLE 22

Electron scattering by sulfur tetrafluoride (SF4) molecules

Cz. Szmytkowski, A. Domaracka, P. Możejko, E. Ptasińska-Denga, and S. Kwitnewski

J. PHYS. B 38 (2005) 745–755

Cited in:

1.) D.H. Shi, J.F. Sun, Y.F. Liu, et al.


SO2, SF4, SF6, SF5CF3, SO2Cl2 and SO2ClF at 30-5000 eV

EUR. PHYS. J. D 54 (2009) 43-50

2.) T.C. Freitas

Espalhamento Elastico de Eletrons por Moleculas de CH3COOH, C2H4O, C3, e SF4,

M.Sc. Thesis Curitiba (2009)

3.) Chongsong Zhou, Li Li, Yongyan Zhou, Hua Hou, and Baoshan Wang

Theoretical study of the hydrolysis of sulfur tetrafluoride

J. Fluorine Chem. 153 (2013) 114-120



wieloatomowych




6.) Transactions IAU, Volume XXVIIA Reports on Astronomy 2006–2009 Karel A. van der

Hucht, ed. DIVISION XII / COMMISSION 14 / WORKING GROUP COLLISION

PROCESSES

7.) Qikun Pan, Jijiang Xie, Chunrui Wang, Chunlei Shao, Mingzhen Shao, Fei Chen, Jin Guo

Non-chain pulsed DF laser with an average power of the order of 100 W

APPL. PHYS. B 122 (2016) 200

8.) Biplab Goswami, BobbyAntony, Stephan Fritzsche

Electron impact scattering and calculated ionization cross sections for SFx (x=1–5)

radicals

International Journal of Mass Spectrometry 417 (2017) 8-15

9.) A.I.Lozano, F. Ferreirada Silva, F.Blanco, P.Limão-Vieira, G.García

Total electron scattering cross section from sevoflurane by 1–300 eV energy electron

impact

CHEM. PHYS. LETT. 706 (2018) 533-537

ARTICLE 23

Cross sections for electron scattering from sulfuryl chloride fluoride (SO2ClF) molecules

Cz. Szmytkowski, P. Możejko, S. Kwitnewski, E. Ptasińska-Denga, and A. Domaracka

J. PHYS. B 38 (2005) 2945–2954

Cited in:

1.) K.C. Rao, K.G. Bhushan, R. Mukund et al.

Elastic scattering of electrons from dimethylsulfide and dimethylsulfoxide

PHYS. REV. A 79 (2009) 062714

2.) D.H. Shi, J.F. Sun, Y.F. Liu, et al.



EUR. PHYS. J. D 54 (2009) 43-50

3.) J.W. McConkey, C.P. Malone, P.V. Johnson et al


PHYS. REP. 466 (2008) 1-103

4.) Eva Vašeková

Spectroscopic Studies of Etching Gases and Microwave Diagnostics of Plasmas Related

to the Semiconductor Industry PHD Thesis

Department of Physics and Astronomy, The Open University 2006




EUR. PHYS. J. D 57, 179-186 (2010)

6.) K.C. Rao, K.G. Bhushan, R. Mukund, S. M. Rodrigues, S.K. Gupta, and J.V. Yakhmi

Influence of sulphur atom on the qualitative behavior of electron impact total cross

sections of some sulphur containing molecules

INDIAN J. PHYS. 85 (2011) 1717-1720



CHIN. PHYS. B 22 (2013) 023403



wieloatomowych





ARTICLE 24

Absolute total cross section measurements for electron collisions with tetrahydrofuran

P. Możejko, E. Ptasińska-Denga, A. Domaracka, and Cz. Szmytkowski

PHYS. REV. A 74 (2006) 012708

Cited in:

1.) Milosavljević A.R.

Electron interaction with DNA deoxyribose analogue molecules

“The Physics of Ionized Gases SPIG 2006”, Eds. L. Hadzievski, B.P. Marinkowić, N.S.

Simonović AIP Conference Proceeding 876 (2006) 81-87



DNA

J. CHEM. PHYS. 125 244302 (2006)



Bases

PHYS. LETT. A 360: 707-712 (2007)

4.) Colyer C J, Vizcaino V, Sullivan J P, Brunger M J, Buckman S J

Absolute elastic cross-sections for low-energy electron scattering from tetrahydrofuran

NEW J. PHYS. 9: 41 (2007)

5.) Dampc M, Linert I, Milosavljevic A R, Zubek M

Vibrational excitation of tetrahydrofuran by electron impact in the low energy range

CHEM. PHYS. LETT. 443: 17-21 (2007)

6.) Dampc M, Milosavljevic A R, Linert I, Marinkovic B P, Zubek M

Differential cross sections for low-energy elastic electron scattering from tetrahydrofuran

in the angular range 20 degrees-180 degrees

PHYS. REV. A 75: 042710 (2007)

7.) Iga I, Sanches I P, de Almeida E, Sugohara R T, Rosani L, Lee M –T




8.) Allan M

Absolute angle-differential elastic and vibrational excitation cross sections for electron

collisions with tetrahydrofuran

J. PHYS. B 40: 3531-3544 (2007)

9.) B.C. Ibanescu, O. May and M. Allan

Cleavage of the ether bond by electron impact: differences between linear ethers and

tetrahydrofuran


10.) A.R. Milosavljevic, D. Ševic, and B.P. Marinkovic


J. PHYS: CONF. SERIES 101 (2008) 012014

11.) V. Vizcaino, J. Roberts, J.P. Sullivan, M.J. Brunger, S.J. Buckman, C. Winstead and V.

McKoy

Elastic electron scattering from 3-hydroxytetrahydrofuran: experimental and theoretical

studies

NEW J. PHYS. 10 (2008) 053002




EUR. PHYS. J D 49 (2008) 51-57



RADIAT. PHYS. CHEM. 77 (2008) 1258– 1264

14.) Shi D-H, Sun J-F, Liu Y-F, Zhu Z-L, Ma H

Total cross sections of electron scattering by large molecules C4H8O, C5H10O2, C6H5CH3

and C4H8O2 at 50-5000 eV

ACTA PHYSICA SINICA 57 (2008) 7612

15.) Fuss M, Munoz A, Oller JC, Blanco F, Almeida D, Limao-Vieira P, Do TPD, Brunger

MJ, Garcia G

Electron-scattering cross sections for collisions with tetrahydrofuran from 50 to 5000 eV

PHYS. REV. A 80 052709 (2009)

16.) M. G. P. Homem, R. T. Sugohara, I. P. Sanches, M. T. Lee, and I. Iga

Cross sections for elastic electron collisions with tetrahydrofuran

PHYS. REV. A 80, 032705 (2009)

17.) A. Zecca, L. Chiari, A. Sarkar, K. L. Nixon and M. J. Brunger

Total cross sections for positron scattering from H2 at low energies

PHYS. REV. A 80, 032702 (2009)



molecules

J. PHYS. B 44 (2011) 015203

19.) C.J. Colyer



20.) T. P. T. Do, M. Leung, M. Fuss, G. Garcia, F. Blanco, K. Ratnavelu, and M. J. Brunger

Excitation of electronic states in tetrahydrofuran by electron impact

J. Chem. Phys. 134, 144302 (2011)

21.) G. G. Raju


CRC Press 2011

22.) L.G. Caron and L. Sanche

Theoretical Studies of electron interactions with DNA and its subunits: From

tetrahydrofuran to plasmid DNA




23.) S.M. Bellm, J.D. Builth-Williams, D.B. Jones, H. Chaluvadi, D.H. Madison, C.G. Ning,

F. Wang, X.G. Ma, B. Lohmann and M.J. Brunger

Dynamical (e, 2e) studies of tetrahydrofurfuryl alcohol

J. CHEM. PHYS. 136 (2012) 244301

24.) M.C. Fuss, R. Colmenares, A.G. Sanz, A. Munoz, J.C. Oller, F. Blanco, T.P.T Do, M.J.

Brunger, D. Almeida, P. Limao-Vieira and G. Garcia

Electron interactions with tetrahydrofuran


25.) A. Gauf, L.R. Hargreaves, A. Jo, J. Tanner and M.A. Khakoo

Low-energy electron scattering by tetrahyrofuran

PHYS. REV. A 85 (2012) 052717

26.) M.U. Bug, W.Y. Baek, and H. Rabus

Simulation of ionisation clusters formed in nanometric volumes of the deoxyribose-

substitute tetrahydrofuran

INT. J. RADIAT. BIOL. 88 (2012) 137-142

27.) W.Y. Baek, M. Bug, H. Rabus, E. Gargioni and B. Grosswendt

Differential elastic and total electron scattering cross sections of tetrahydrofuran

PHYS. REV. A 86 (2012) 032702

28.) L. Chiari, E. Anderson, W. Tattersall, J.R. Machacek, P. Palihawadana, C.

Makochekanwa, J.P. Sullivan, G. Garcia, F. Blanco, R.P. McEachran, M.J. Brunger and

S.J. Buckman

Total, elastic, and inelastic cross sections for positron and electron collisions with

tetrahydrofuran

J. CHEM. PHYS. 138 (2013) 074301

29.) E.M. de Oliveira, R.F. da Costa, S.d’A. Sanchez, A.P.P. Natalense, M.H.F. Bettega,

M.A.P. Lima and M.T. do N. Varella

Low-energy electron scattering by cellulose and hemicellulose components


30.) P. Bhowmik

Theoretical studies on electron scattering processes with important atomic and molecular

targets

PhD Thesis, Sadal Patel University 2012

31.) D.B. Jones, J.D. Builth-Williams, S.M. Bellm, L. Chairi, H. Chaluvadi, D.H. Madison,

C.G. Ning, B. Lohmann, O. Ingolfsson, M.J. Brunger

Dynamical (e,2e) investigations of tetrahydrofuran and tetrahydrofurfuryl alcohol as

DNA analogues

CHEM. PHYS. LETT. 572 (2013) 32-37

32.) C. Champion


components

J. CHEM. PHYS. 138 (2013) 184306

33.) W. Y. Baek, A. Arndt, M. U. Bug, H. Rabus, and M. Wang

Total electron-scattering cross sections of pyrimidine


34.) J. Franz and F.A. Gianturco

Low-energy positron scattering from gas=phase tetrahydrofuran: A quantum treatment of

the dynamics and a comparison with experiments

J. CHEM. PHYS. 139 (2013) 204309

35.) N.A. Garland, M.J. Brunger, G. Garcia, J. De Urquijo, R.D. White

Transport properties of electron swarms in tetrahydrofuran under the influence of an

applied electric field

PHYS. REV. A 88 (2013) 062712




37.) R. Janečková, O. May, A.R. Milosavljević, J. Fedor

Partial cross sections for dissociative electron attachment to tetrahydrofuran reveal a

dynamics-driven rich fragmentation pattern

INT. J. MASS SPECTROM. 365–366 (2014) 163

38.) Xinglan Luo, Yi Zheng and Léon Sanche

DNA strand breaks and crosslinks induced by transient anions in the range 2-20 eV

J. CHEM. PHYS. 140 (2014) 155101

39.) D. Almeida, F. Ferreira da Silva, S. Eden, G. García, and P. Limão-Vieira

New Fragmentation Pathways in K–THF Collisions As Studied by Electron-Transfer

Experiments: Negative Ion Formation

J. PHYS. CHEM. A 118 (2014) 690

40.) W.Y. Baek, M.U. Bug, and H. Rabus

Differential elastic electron-scattering cross sections of pyrimidine in the energy range

between 20 eV and 1 keV

PHYS. REV. A 89 (2014) 062716

41.) C. Champion, M.A. Quinto, M.U. Bug, W.Y. Baek and P.F. Weck

Theoretical and experimental quantification of doubly and singly differential cross

sections for electron-induced ionization of isolated tetrahydrofuran molecules

EUR. PHYS. J. D 68 (2014) 205




EUR. PHYS. J. D 68 (2014) 161



2,5-dimethylfuran

MOL. PHYS. 113 (2015) 55-62

44.) X. Ren, T. Pfluger, M. Weyland, W.Y. Baek, H. Rabus, J. Ulrich and A. Dorn

An (e, 2e + ion) study of low-energy electron-impact ionization and fragmentation of

tetrahydrofuran with high mass and energy resolutions

J. CHEM. PHYS. 141 (2014) 134314

45.) M. U. Bug



46.) T.P.T. Do, H.V. Duque, M.C.A. Lopes, D.A. Konovalov, R.D. White, M.J. Brunger, and

D.B. Jones

Differential cross sections for electron-impact vibrational-excitation of tetrahydrofuran

at intermediate impact energies


47.) H. V. Duque, T.P.T. Do, M.C.A. Lopes, D.A. Konovalov, R.D. White, M.J. Brunger, and

D.B. Jones

The role of electron-impact vibrational excitation in electron transport through gaseous

tetrahydrofuran


48.) E. Alizadeh, T.M. Orlando, and L. Sanche

Biomolecular Damage Induced by Ionizing Radiation: The Direct and Indirect Effects of

Low-Energy Electrons on DNA

ANNUAL REVIEW OF PHYSICAL CHEMISTRY 66 (2015) 379-398



wieloatomowych


50.) P. Bhowmik, R. Dawda and K.N. Josipura

ELECTRON–SCATTERING WITH POLYATOMIC MOLECULES: SCREENING

MODIFICATIONS IN GROUP ADDITIVITY RULE






RADIAT. PHYS. CHEM. 130 (2017) 459-479

52.) Esam Ali, XueGuang Ren, Alexander Dorn, Chuangang Ning, James Colgan, and Don

Madison

Experimental and theoretical triple-differential cross sections for tetrahydrofuran ionized

by low-energy 26-eV-electron impact

PHYS. REV. A 93 (2016) 062705

53.) V. Lemelin, A. D. Bass, P. Cloutier and L. Sanche

Absolute vibrational cross sections for 1-19 eV electron scattering from condensed

tetrahydrofuran (THF)

J. CHEM. PHYS. 144 (2016) 074701

54.) Martin Viktor Johansson

Determination of thermal transpiration effect for biomolecular gases with capacitance

manometer

M.Sc. Thesis UMEA Universitet 2015

55.) V. Lemelin, A.D. Bass, P. Cloutier, and L. Sanche

Absolute cross sections for electronic excitation of condensed tetrahydrofuran (THF) by

11-16 eV electrons

J. CHEM. PHYS. 145 (2016) 174703

56.) V. Lemelin

Mesure de sections efficaces absolues vibrationnelles pour la collision d'électrons de

basse énergie (1-19 eV) avec le tétrahydrofurane (THF) condensé

M.Sc. Thesis Sherbrooke University (2016)

57.) M. Swadia, Y. Thakar, M. Vinodkumar and Ch. Limbachiya

Theoretical electron impact total cross sections for tetrahydrofuran (C4H8O)

EUR. PHYS. J. D 71 (2017) 85

58) Michael Neustetter Masoomeh Mahmoodi-Darian, and Stephan Denifl

Study of Electron Ionization and Fragmentation of Non-hydrated and Hydrated

Tetrahydrofuran Clusters

Journal of The American Society for Mass Spectrometry 28 (2017) 866-872





24–32



61.) M. J. Brunger


INT. REV. PHYS. CHEM. 36 (2017) 333-376

62.) Jimena D Gorfinkiel and Sylwia Ptasinska

Electron scattering from molecules and molecular aggregates of biological relevance

Journal of Physics B: Atomic, Molecular and Optical Physics 50 (2017) 182001

63.) Ewa Erdmann, Marie-Christine Bacchus-Montabonel and Marta Łabuda

Modelling charge transfer processes in C2+–tetrahydrofuran collision for ion-induced

radiation damage in DNA building blocks

Phys. Chem. Chem. Phys.19 (2017) 19722-19732

64.) A. Traoré Dubuis, A. Verkhovtsev, L. Ellis-Gibbings, K. Krupa1, F. Blanco, D. B. Jones,

M. J. Brunger, G. García

Total cross section of furfural by electron impact: Experiment and theory

The Journal of Chemical Physics 147 (2017) 054301

65.) Mohit Swadia, Rakesh Bhavsar, Yogesh Thakar, Minaxi Vinodkumar & Chetan

Limbachiya

Electron-driven processes for furan, tetrahydrofuran and 2, 5-dimethylfuran






ARTICLE 25

Total cross-section measurements for electron collisions with α-tetrahydrofurfuryl alcohol

(C5H10O2)

P. Możejko, A. Domaracka, E. Ptasińska-Denga, and Cz. Szmytkowski

CHEM. PHYS. LETT. 429 (2006) 378-381

Cited in:



DNA

J. CHEM. PHYS. 125 244302 (2006)

2.) Milosavljevic A R, Ševic D and B P Marinkovic B P


J. PHYS: CONF. SERIES 101 012014 (2008)




EUR. PHYS. J D 49: 51-57 (2008)



RADIAT. PHYS. CHEM. 77 1258– 1264 (2008)



molecules


6.) A. Zecca, L. Chiari, G. Garcia, F. Blanco, E. Trainotti and M. J. Brunger

Total cross-sections for positron and electron scattering from -tetrahydrofurfuryl alcohol

NEW J. PHYS. 13 (2011) 063019

7.) G. G. Raju


CRC Press 2011

8.) C. Winstead and V. McKoy

Electron-biomolecule collision studies using the Schwinger Multichannel Method

In: “Radiation Damage in Biomolecular Systems”

Eds. G. Garcia Gomez-Tejedor and M.C. Fuss, pp.87-113

9.) S.M. Bellm, J.D. Builth-Williams, D.B. Jones, H. Chaluvadi, D.H. Madison, C.G. Ning,

F. Wang, X.G. Ma, B. Lohmann and M.J. Brunger

Dynamical (e, 2e) studies of tetrahydrofurfuryl alcohol

J. CHEM. PHYS. 136 (2012) 244301

10.) M. Vinodkumar and C. Limbachiya

Electron impact total and ionization cross-sections for DNA based compounds

MOL. PHYS. 111 (2013) 213-221

11.) M. Vinodkumar, Ch. Limbachiya, M. Barot, M. Swadia, A. Barot

Electron impact total ionization cross sections for all the components of DNA and RNA

molecules





13.) M. Vinodkumar , C. Limbachiya, M. Barot, A. Barot, M. Swadia

Electron impact total cross sections for components of DNA and RNA molecules


14.) H. V. Duque, L. Chiari, D. B. Jones, Z. Pettifer, G. B. da Silva, P. Limão-Vieira,

F. Blanco, G. García, R. D. White, M. C. A. Lopes, and M. J. Brunger

Intermediate-energy differential and integral cross sections for vibrational excitation in α-

tetrahydrofurfuryl alcohol

J. CHEM. PHYS. 140 (2014) 214306

15.) L. Chiari, H.V.Duque, D.B. Jones, P.A. Thorn, Z. Pettifer, G.B. Da Silva, P. Limão-Vieira,

D. Duflot, M.-J. Hubin-Franskin, J. Delwiche, F. Blanco, G. García, M.C.A. Lopes, K.


Differential cross sections for intermediate-energy electron scattering from α-

tetrahydrofurfuryl alcohol: Excitation of electronic-states

J. CHEM. PHYS. 141 (2014) 024301

16.) H.V. Duque, L. Chiari, D.B. Jones, P.A. Thorn, Z. Pettifer, G.B. de Silva, P. Limao-Viera,

D. Duflot, M.-J. Hubin-Franskin, J. Delwiche, F. Blanco, G. Garcia, M.C.A. Lopes, K.


Cross sections for electron scattering from -tetrahydrofurfuryl alcohol

CHEM. PHYS. LETT. 608 (2014) 161

17.) M. U. Bug



18.) D.B. Jones, L. Ellis-Gibbings, G. Garcia, K.L. Nixon, M.C.A. Lopes, and M.J. Brunger

Intermediate energy cross sections for electron-impact vibrational-excitation of

pyrimidine


19.) M. Barot, A. Barot, C. Limbachiya and M. Vinodkumar

THEORETICAL STUDY OF TOTAL IONIZATION CROSS SECTIONS FOR

DNA/RNA MOLECULE ON ELECTRON IMPACT








21.) M. J. Brunger


INT. REV. PHYS. CHEM. 36 (2017) 333-376

22.) Wang Pengchao, Hu Yongjun, Zhan Huaqi, Chen Jiaxin, Jin Shan, Song Wentao, Li

Yujian

Vibrational spectroscopy of the mass-selected tetrahydrofurfuryl alcohol monomers and

its dimers in gas phase using IR depletion and VUV single photon ionization

Spectrochimica Acta Part A 185 (2017) 63-68

23.) M. Dampc, B. Mielewska, M.R.F Siggel-King, G.C. King, M. Zubek

A study of the photoelectron spectra of alpha-tetrahydrofurfuryl alcohol over the outer

valence energy region (9-25 eV)

CHEM. PHYS. LETT. 679 (2017) 15-20

24.) Shan Jin, Yongjun Hu, Pengchao Wang, Huaqi Zhan, Qiao Lu, Fuyi Liu and Liusi

Sheng

Hydrogen bonding and dominant conformations of hydrated sugar analogue complexes

using tetrahydrofurfuryl alcohol as the model sugar molecule


ARTICLE 26

Electron-scattering total cross sections for triatomic molecules NO2 and H2O

Cz. Szmytkowski and P. Możejko

OPTICA APPLICATA 36 (2006) 543

Cited in:

1.) Silva H, Muse J, Lopes M C A, Khakoo M A

Low energy elastic differential electron scattering from H2O

PHYS. REV. LETT. 101, 033201 (2008)

2.) Khakoo M A, Silva H, Muse J, Lopes M C A, Winstead C , McKoy V

Electron scattering from H2O: Elastic scattering

PHYS. REV. A 78, (2008) 052710

3.) Cz. Szmytkowski


J. PHYS. B 43 (2010) 055201

4.) Kamalnayan N. Joshipura, Siddharth H. Pandya, Nigel J. Mason

Electron scattering and ionization of H2O; OH, H2O2, HO2 radicals and (H2O)2 dimer

The European Physical Journal D 71 (2017) 96

5.) Zhu Bing Feng Hao

Electron scattering studies of NO2 radical using R-matrix method

Acta Physica Sinica 66 (2017) 243401




ARTICLE 27

Electron collision with sulfuryl chloride (SO2Cl2) molecule

Cz. Szmytkowski, P. Możejko, S. Kwitnewski, A. Domaracka, and E. Ptasińska-Denga

J. PHYS. B 39: (2006) 2571–2581

Cited in:

1.) D.H. Shi, J.F. Sun, Y.F. Liu et al



EUR. PHYS. J. D 54 (2009) 43-50

2.) K.N. Joshipura and S. Gangopadhyay

Electron collisions with sulfur compounds SO, SO2 and SO2AB (A,B = Cl, F): various

total cross sections

J. PHYS. B 41 (2008) 215205

3.) J.W. McConkey, C.P. Malone, P.V. Johnson et al


PHYS. REP. 466 (2008) 1-103



CHIN. PHYS. B 22 (2013) 023403

5.) L. Zhong A. Yang, X. Wang, D. Liu, Y. Wu, M. Rong

Dielectric breakdown properties of hot SF6-CO2 mixtures at temperatures of 300-3500 K

and pressures of 0.01-1.0 MPa




wieloatomowych


7.) Transactions IAU, Volume XXVIIA Reports on Astronomy 2006–2009 Karel A. van der

Hucht, ed. DIVISION XII / COMMISSION 14 / WORKING GROUP COLLISION

PROCESSES




ARTICLE 28

Electron collision with B(CD3)3 molecules

A. Domaracka, P. Możejko, E. Ptasińska-Denga and Cz. Szmytkowski

J. PHYS. B 39 (2006) 4289–4299

Cited in:

1.) Cz. Szmytkowski


J. PHYS. B 43 (2010) 055201

2.) H.S. Bhutadia, M.Y. Barot, K.M. Korot and M. Vinodkumar

SCREENING CORRECTED TOTAL CROSS SECTIONS FOR NH(CH3)2 AND

NH2CH3 ON ELECTRON IMPACT





wieloatomowych




ARTICLE 29

Collisions of electrons with trimethylphosphine P(CH3)3 molecules

Alicja Domaracka, Paweł Możejko, Elżbieta Ptasińska-Denga, and Czesław Szmytkowski

PHYS. REV. A 76 (2007) 042701

Cited in:

1.) W.F. van Dorp, J.D. Wnuk, J.M. Gorham, D.H. Fairbrother, T.E. Madey, and C.W.

Hagen

Electron induced dissociation of trimethyl, methylcyclopentadienyl. Platinum, IV.: Total

cross section as a function of incident electron energy

J. APPL. PHYS. 106 (2009) 074903




EUR. PHYS. J. D 57, 179-186 (2010)

3.) H. Bhutadia, M. Vinodkumar and B. Antony

Theoretical investigation of electron impact total ionization cross sections for N(CH3)3,

NH(CH3)2, NH2CH3, P(CH3)3, PH(CH3)2, and PH2CH3 molecules

J. KOREAN PHYS. SOC. 59 2873-2876 (2011)






wieloatomowych


6.) Bug, Marion Ute,


Doctor of Philosophy thesis, School of Physics, University of Wollongong, 2014.




RADIAT. PHYS. CHEM. 130 (2017) 459-479

8.) International Bulletin on Atomic and Molecular Data for Fusion No. 68 (2009) Eds H.K.

Chung and D. Humbert, International Atomic Energy Agency (Vienna 2009)

ARTICLE 30

Total dissociative electron attachment cross sections of selected amino acids

A.M. Scheer, P. Mozejko, G.A. Gallup, and P. D. Burrow

J. CHEM. PHYS. 126 (2007) 174301

Cited in:

1.) R. Abouaf

Low energy electron impact in gas phase glycine, alanine and propanoic acid: Electronic,

vibrational excitations and negative ions

CHEM. PHYS. LETT. 451 25-30 (2008)

2.) Y.V. Vasil’ev, B.J. Figard, D.F. Barofsky and M.L. Deinzer

Resonant electron capture by some amino acids esters


3.) P.R. Brooks, P. W. Harland, S. A. Harris, T. Kennair, C. Redden, and J. F. Tate

Steric Effects in Electron Transfer from Potassium to -Bonded Oriented Molecules

CH3CN, CH3NC, and CCl3CN

J. AM. CHEM. SOC. 129 (2007) 15572 -15580

4.) B.C. Ibanescu, O. May, and M. Allan

Cleavage of the ether bond by electron impact: differences between linear ethers and

tetrahydrofuran


5.) M. Mauracher, S. Denifl, A. Aleem, N. Wendt, F. Zappa, P. Cicman, M. Probst, T. D.

Märk, P. Scheier, H. D. Flosadóttir, O. Ingólfsson, and E. Illenberger

Dissociative electron attachment to gas phase glycine: Exploring the decomposition

pathways by mass separation of isobaric fragment anions


6.) J. W. McConkey, C.P. Malone, P.V. Johnson, C. Winstead, V. McKoy, I. Kanik


PHYS. REP. 466 (2008) 1–103

7.) E. Burean, R. Abouaf, A. Lafosse, R. Azria, and P. Swiderek

High-Resolution Vibrational Electron-Energy-Loss Spectroscopy of Gaseous and Solid

Glycine

J. PHYS. CHEM. C 112 9405-9411 (2008)

8.) S. Ptasińska S, A.D. Bass and L. Sanche

Low energy electron attachment to condensed formic acid

J. PHYS: CONFERENCE SERIES 115: 012018 (2008)

9.) M. Tashiro

Electron scattering from gas-phase glycine molecules

J. CHEM. PHYS. 129: 164308 (2008)

10.) A.N. Zavilopulo, O.B. Shpenik and A.S. Agafonova

Electron impact ionization of gas-phase guanine near the threshold

J. PHYS. B 42: 025101 (2009)

11.) G.A. Gallup, P.D. Burrow and I.I. Fabrikant

Electron-induced bond breaking at low energies in HCOOH and glycine: short-lived

anion states

PHYS. REV. A 79 (2009) 042701

12.) H. Abdoul-Carime, C. König-Lehmann, J. Kopyra, B. Farizon, M. Farizon, E. Illenberger

Dissociative electron attachment to amino-acids: The case of Leucine

CHEM. PHYS. LETT. 477 (2009) 245–248

13.) T. C. Freitas and M. H. F. Bettega

Scattering of low-energy electrons by C2H4O

PHYS. REV. A 79 (2009) 042714

14.) P. Papp, P. Shchukin and Š. Matejčík

Specific formation of negative ions from leucine and isoleucine molecules

J. CHEM. PHYS. 132, 014301 (2010)

15.) P. R. Brookes

Electron Transfer Collisions with Oriented Trifluoroacetic Acid (CF3CO2H)

J. Phys. Chem. A (2009), 113, 14296–14301

16.) T. C. Freitas, M. A. P. Lima, S. Canuto, and M. H. F. Bettega

Electron collisions with the CH2O-H2O complex

PHYSICAL REVIEW A 80, 062710 (2009)

17.) J. Kocisek, P. Papp, P. Mach, Y.V. Vasil’ev, M.L. Deinzer, and S. Matejcik

Resonance Electron Capture by Serine

J. PHYS. CHEM. A 114 (2010) 1677-1683

18.) P. Papp, P. Shchukin, and S. Matejcik

Specific formation of negative ions from leucine and isoleucine molecules

J. CHEM. PHYS. 132 (2010) 014301

19.) R.F.da Costa, M.H.F. Bettega, M.T. do N. Varella,and M.A.P. Lima

Electron collisions with alpha-D-glucose and beta-D-glucose monomers

J. CHEM. PHYS. 132 (2010) 124309

20.) E.M. de Oliveira, M.A.P. Lima, M.H.F. Bettega, S. d’A. Sanchez, R.F. da Costa, and

M.T. do N. Varella

Low-energy electron collisions with pyrrole

J. CHEM. PHYS. 132: 204301 (2010)

21.) S. Ptasinska, Z. Li, N.J. Mason, and L. Sanche

Damage to amino acid-nucleotide pairs induced by 1 eV electrons


22.) I.I. Fabrikant

Recent progress in the theory of dissociative attachment: From diatomics to biomolecules

J. PHYS.: Conference Series 204 (2010) 012004

23.) C. Panosetti, I. Baccarelli, F. Sebastianelli and F.A. Gianturco

Modelling fragmentations of aminoacids after resonant electron attachment: quantum

evidence of possible direct –OH detachment

EUR. PHYS. J. D 60 (2010) 21-30

24.) S. Denfil, H.D. Flosadottir, A. Edtbauer, O. Ingolfsson, T.D. Mark and P. Scheier

A detailed study on the decomposition pathways of the amino acid valine upon

dissociative electron attachment

EUR. PHYS. J. D 60 (2010) 37-44

25.) C. Champion, H. Lekadir, M. E. Galassi, O. Fojon, R.D. Rivarola and J. Hanssen

Theoretical predictions for ionization cross section of DNA nucleobases impacted by light

ions

PHYS. MED. BIOL. 55 (2010) 6053-6067

26.) E. Alizadeh, D. Gschliesser, P. Bartl, M. Hager, A. Edtbauer, V. Vizcaino, A. Mauracher, M.

Probst, T. D. Märk, S. Ptasińska, N. J. Mason, S. Denifl, and P. Scheier

Bond dissociation of the dipeptide dialanine and its derivative alanine

anhydride induced by low energy electrons

J. CHEM. PHYS. 134, 054305 (2011)

27.) E.M. Oliveira

Aplicacoes do metodo multicanal de Schwinger ao espalhamento de eletrones e positrons

por moleculas

PhD Thesis, Universidade Estadual de Campinas 2010

28.) A.S. Zubkov

Modjelirowanie dissocjatiwnogo zachwata eljektrona swjazannym protonom oksikislot:

rasczjot termodinamiczjeskich paramjetrow

PhD Thesis, Moscow 2011

29.) A.S. Zubkov, V.I. Artyukhov, L.A. Chernozatonskii, O.S. Nedelina

A model of single-electron transport. Calculation of the thermodynamic parameters for

electron capture by the bound proton of oxyacids

RUSSIAN J. PHYS. CHEM. 5: 748 (2011)

30.) M. Allan

Measurements of absolute cross sections of electron scattering by isolated molecules




31.) Josué S. dos Santos, Romarly F. da Costa, and Márcio T. do N. Varella

Low-energy electron collisions with glycine

J. CHEM. PHYS. 136, 084307 (2012)

32.) D. Gschliesser, V. Vizcaino, M. Probst, P. Scheier, and S. Denifl

Formation and Decay of the Dehydrogenated Parent Anion upon Electron Attachment to

Dialanine

CHEM. EUR. J. 18 (2012) 4613-4619

33.) M.V. Muftakhov, and P.V. Shchukin,

Fragmentation of valine and proline in resonant free electron capture reactions

RUSS. CHEM. BULL. 60 (2012) 1965-1976

34.) THIAGO CORRĘA DE FREITAS

ESPALHAMENTO DE ELÉTRONS POR MOLÉCULAS DE RELEVÂNCIA

BIOLÓGICA: FASE GASOSA, MICROSSOLVATAÇÃO E FASE CONDENSADA

PhD thesis Curitiba 2012

35.) S.A.K. Elroby, A.A. Ahmed and R.H. Hilal

Conformational preference mechanism of decarboxylation of Levodopa. A Quantum

Dynamics/Quantum Mechannics Study

INT. J. QUANTUM CHEM. 113 (2013) 1966-1974

36.) T.C. Freitas, K. Coutinho, M.T. do N. Varella, M.A.P. Lima, S. Canuto, and M.H.F.

Bettaga

Electron collisions with the HCOOH...(H2O)n complexes (n = 1, 2) in liquid phase: The

influence of microsolvation on the * resonance of formic acid

J. CHEM. PHYS. 138 (2013) 174307

37.) Adrian Keller, Janina Kopyra, Kurt V Gothelf and Ilko Bald

Electron-induced damage of biotin studied in the gas phase and in the condensed phase

at a single-molecule level

NEW J. PHYS 15 (2013) 083045

38.) F. Kossoski and M. H. F. Bettega

Low-energy electron scattering from the aza-derivatives of pyrrole, furan, and thiophene

J. CHEM. PHYS. 138 (2013) 234311

39.) F. Kossoki, M.H.F. Bettega, M.T.Do. N. Varella

Shape resonance spectra of uracil, 5-fluorouracil, and 5-chlorouracil

J. CHEM. PHYS. 140 (2014) 024317

40.) M.M. Fujimoto, J. Tennyson, E.S. Michelin

Low-energy electron collisions with the alanine molecule

EUR. PHYS. J. D 68 (2014) 67

41.) Sekimoto, Kanako; Sakakura, Motoshi; Kawamukai, Takatomo; et al.

Ionization characteristics of amino acids in direct analysis in real time mass spectrometry

ANALYST 139 (2014) 2589

42.) F. Ferreira Da Silva, J. Rafael, T. Cunha, D. Almeida, P. Limão-Vieira

Electron transfer to aliphatic amino acids in neutral potassium collisions


43.) A. Buonaugurio, J. Graham, A. Buytendyk, K.H. Bowen, M.R. Ryder, Z.G. Keolopile, M.

Haranczyk, M. Gutowski

Communication: Remarkable electrophilicity of the oxalic acid monomer: An anion

photoelectron spectroscopy and theoretical study

J. CHEM. PHYS. 140 (2014) 221103

44.) E.O. Burslioglu, O. Icelli, B. Balkan, H.B. Kavanoz and M. Okutan

Photon Atomic Parameters of Nonessential Amino Acids for Radiotheraphy and

Diagnostics

J. Amino Acids (2014) 434519

45.) E.M. de Oliveira, T.C. Freitas, K. Coutinho, M.T. do N. Varella, S. Canuto, M.A.P. Lima

and M.H.F. Bettega

Communication: Transient anion states of phenol…(H2O)n (n = 1,2) compexes: Search

for microsolvation signatures

J. CHEM. PHYS. 141 (2014) 051105

46.) P.V. Shchukin, G.P. Mikhailov, and M.V. Muftakhov

Isotope effect in cross-section of (M-H/D)(-) negative ions formation from CF3COOH and

CF3COOD

INTERNATIONAL JOURNAL OF MASS SPECTROMETRY 380 (2015) 1-6

47.) F. Kossoski and M. T. do N. Varella

Precursor anion states in dissociative electron attachment to chlorophenol isomers

J. CHEM. PHYS. 145 (2016) 044310

48.) Jon M. Friedrich, Daniel P. Glavin, Mark L. Rivers, Jason P. Dworkin

Effect of a synchrotron X-ray microtomography imaging experiment on the amino acid

content of a CM chondrite

METEORITISC & PLANETRY SCIENCE 51 (2016) 429–437

49.) Alessandra F. Albernaz, Vincenzo Aquilanti, Patricia R. P. Barreto, Concetta Caglioti, Ana

Claudia P. S. Cruz, Gaia Grossi, Andrea Lombardi, and Federico Palazzetti

Interactions of Hydrogen Molecules with Halogen-Containing Diatomics from Ab Initio

Calculations: Spherical-Harmonics Representation and Characterization of the

Intermolecular Potentials

J. PHYS. CHEM. A 120 (2016) 5315–5324

50.) Kathrin Altwegg, Hans Balsiger, Akiva Bar-Nun, Jean-Jacques Berthelier, Andre Bieler,

Peter Bochsler, Christelle Briois, Ursina Calmonte, Michael R. Combi, Hervé Cottin,

Johan De Keyser, Frederik Dhooghe, Bjorn Fiethe, Stephen A. Fuselier, Sébastien Gasc,

Tamas I. Gombosi, Kenneth C. Hansen, Myrtha Haessig, Annette Jäcke, Ernest Kopp,

Axel Korth, Lena Le Roy, Urs Ma, Bernard Marty, Olivier Mousis, Tobias Owen, Henri

Rème, Martin Rubin, Thierry Sémon, Chia-Yu Tzou, James Hunter Waite and Peter Wurz

Prebiotic chemicals—amino acid and phosphorus—in the coma of comet

67P/Churyumov-Gerasimenko

SCIENCE ADVANCES 2 (2016) e1600285

51.) M.M. Fujimoto, E.V.R. de Lima, and J. Tennyson

Averaged electron collision cross sections for thermal mixtures of alpha-alanine

conformers in the gas phase

J. PHYS. B 49 (2016) 215201

52.) F.B. Nunes, M.H.F. Bettega and S. d’Almeida Sanchez

Positron and electron scattering by glycine and alanine: Shape resonances and

methylation effect

J. CHEM. PHYS. 145 (2016) 214313

53.) I. Bald, R. Čurík, J. Kopyra, M. Tarana

Dissociative Electron Attachment to Biomolecules

in Nanoscale Insights into Ion-Beam Cancer Therapy ed. Solov’yov, Andrey, Springer 2017

54.) Jimena D Gorfinkiel and Sylwia Ptasinska

Electron scattering from molecules and molecular aggregates of biological relevance


55.) Milton M Fujimoto, Erik V R de Lima and Jonathan Tennyson

Averaged electron collision cross sections for thermal mixtures of β-alanine conformers

in the gas phase


56.) F. Kossoski and M. T. do N. Varella

How does methylation suppress the electron-induced decomposition of 1-methyl-

nitroimidazoles?


57.) Fernanda Brandalise Nunes

Influência do efeito de transferência de carga inter e intramolecular na captura

eletrônica por moléculas de interesse biológico

Msc Thesis (2017) Universidade Federal do Paraná (Curtiba)

58.) ALESSANDRA DE SOUZA BARBOSA

ESPALHAMENTO ELÁSTICO DE ELÉTRONS E PÓSITRONS POR MOLÉCULAS

CÍCLICAS

PHD Thesis, UNIVERSIDADE FEDERAL DO PARANÁ (2017)



energies


http://aip.scitation.org/doi/abs/10.1063/1.4968602

http://aip.scitation.org/doi/abs/10.1063/1.4968602

http://link.springer.com/chapter/10.1007/978-3-319-43030-0_5




APPL. PHYS. REV. 5 (2018) 021302

61.) Stanislav V. Verkhoturov, Mikołaj Gołuński, Dmitriy S. Verkhoturov, Sheng Geng,

Zbigniew Postawa, and Emile A. Schweikert

“Trampoline” ejection of organic molecules from graphene and graphite via keV cluster

ions impacts

J. CHEM. PHYS. 148 (2018) 144309

62.) Alexandra Loupas1,2 and Jimena D. Gorfinkiel2,a)

Shape and core-excited resonances in electron scattering from alanine

J. CHEM. PHYS. 150 (2019) 064307

ARTICLE 31

Collisions of electrons with trimethylamine N(CH3)3 molecules

Cz. Szmytkowski, A. Domaracka, P. Możejko, and E. Ptasińska-Denga

PHYS. REV. A 75 052721 (2007)

Cited in:




EUR. PHYS. J. D 57, 179-186 (2010)

2.) H. Bhutadia, M. Vinodkumar and B. Antony

Theoretical investigation of electron impact total ionization cross sections for N(CH3)3,

NH(CH3)2, NH2CH3, P(CH3)3, PH(CH3)2, and PH2CH3 molecules

J. KOREAN PHYS. SOC. 59 2873-2876 (2011)




4.) H.S. Bhutadia, M.Y. Barot, K.M. Korot and M. Vinodkumar

SCREENING CORRECTED TOTAL CROSS SECTIONS FOR NH(CH3)2 AND

NH2CH3 ON ELECTRON IMPACT





wieloatomowych


6.) Meera D. Gurung




7.) Rajbeer Singh, Manoj Kumar. Satyendra Pal

Electron impact ionization cross sections for methylamines

Journal of Electron Spectroscopy and Related Phenomena 226 (2018) 22-25

ARTICLE 32

Calculations of electron impact ionization cross section for simple biomolecules: Formic and

acetic acids

P. Możejko

EUR. PHYS. J. SPEC. TOPICS. 144, 233−237 (2007)

Cited in:

1.) T.C. Freitas, M.T. do N. Varella, R.F. da Costa, M.A.P. Lima, M.H.F. Bettega MHF

Low-energy electron collisions with acetic acid

PHYS. REV. A 79 (2009) 022706

2.) M. Vinodkumar, H. Bhutadia, Ch. Limbachiya and K.N. Joshipura

Electron impact total ionization cross section for H2S, PH3, HCHO and HCOOH

INT. J. MASS SPECT|ROM. 308 (2011) 35-40


Electron impact ionization studies of acetic acid

XVII International Symposium on Electron-Molecule Collisions and Swarms, POSMOL

2011, Maynooth, 2011, Book of Abstracts p. 77

4.) M. Vinodkumar, and M. Barot

Scattering of N2O on electron impact over an extensive energy range (0.1 eV-2000 eV)

J. CHEM. PHYS. 137 (2012) 074311

5.) M.Y. Barot, H. Bhutadia, M. Vinodkumar

Theoretical calculation of electron impact total cross sections for HCl molecule over a

wide range of impact energies (0.1-2000 eV)

PRAJNA J. PURE APPL. SCI. 19 (2011) 85-89


Electron impact ionisation studies of acetic acid





8.) L. Seidel, K. Moshammer, X.X. Wang, T. Zeuch, K. Kohse-Hoeinghaus, and F. Mauss

Comprehensive kinetic modeling and experimental study of a fuel-rich, premixed n-

heptane flame

COMBUSTION AND FLAME 162 (2015) 2045-2058

9.) M. Zawadzki

Electron-impact ionization cross section of formic acid

EUR. PHYS. J. D 72 (2018) 12

10.) J. Wullenkord, L.-S. Tran, J. Bottchers, I. Graf, K. Kohshe-Hoinghaus

A laminar flame study of di-n-butyl ether as a potential biofuel candidate

COMBUSTION AND FLAME 190 (2018) 36-49

ARTICLE 33

Electron collisions with ethylene oxide molecules

Cz. Szmytkowski, A. Domaracka, P. Możejko and E. Ptasińska-Denga

J. PHYS. B 41 (2008) 065204

Cited in:

1.) T.C. Freitas, M.H.F. Bettega

Scattering of low-energy electrons by C2H4O

PHYS. REV. A 79 (2009) 042714

2.) Cz. Szmytkowski


J. PHYS. B 43: 055201 (2010)

3.) T.C. Freitas

Espalhamento Elastico de Eletrons por Moleculas de CH3COOH, C2H4O, C3, e SF4,

M.Sc. Thesis Curitiba (2009)

4.) Y. Yildirim, M. Balcan, A.D. Bass, P. Cloutier, and L. Sanche Electron stimulated desorption of anions and cations from condensed allyl glycidyl ether

PHYS. CHEM. CHEM. PHYS. 12: 7950-7958 (2010)

5.) T.C. Freitas and M.H.F. Bettega

Electron collisions with ethylene oxide

J. Phys.: Conference Series 194: 052014 (2009)

6.) I.V. Chernyshova, J.E. Kontros, O.B. Shpenik, J. Tamuliene, M.L. Balevicius

Low-energy Electron Collisions with Gas-phase Thymine Molecule

MATERIALS SCIENCE (MEDŽIAGOTYRA). 17: 322-325 (2011)

7.) A. Zecca, E. Trainotti, L. Chiari, M.H.F. Bettega, S. d’A. Sanchez, M.T. do N. Varella,

M.A.P. Lima, and M.J. Brunger

Positron scattering from the cyclic ethers oxirane, 1,4-dioxane, and tetrahydropyran

J. CHEM. PHYS. 136 (2012) 124305

8.) A.Y. Barot, M. Vinodkumar and B. Antony

Electron impact total cross sections for ethylene oxide

PRAJNA J. PURE APPL. SCI. 19 (2011) 71

9.) M. Vinodkumar, C. Limbachiya, H. Desai, and P.C. Vinodkumar

Electron induced chemistry for acetaldehyde

RSC ADVANCES 5 (2015) 69466-69478



wieloatomowych


11.) International Bulletin on Atomic and Molecular Data for Fusion No. 68 (2009) Eds H.K.

Chung and D. Humbert, International Atomic Energy Agency (Vienna 2009)

12.) Jelena Tamuliene

Quantum mechanical study on the fragmentation of the POPOP molecule

AIP Conference Proceedings 1504 (2012) 1166

13.) Transactions IAU, Volume XXVIIIA Reports on Astronomy 2009–2012 Ian Corbett, ed.

DIVISION XII / COMMISSION 14 / WORKING GROUP COLLISION PROCESSES

ARTICLE 34

Electron scattering by trimethylene oxide, c-(CH2)3O, molecules

Cz. Szmytkowski, A. Domaracka, P. Możejko, and E. Ptasińska-Denga

J. CHEM. PHYS. 130 (2009) 134316

Cited in:

1.) Cz. Szmytkowski


J. PHYS. B 43: 055201 (2010)



molecules


3.) A. Zecca, E. Trainotti, L. Chiari, M.H.F. Bettega, S. d’A. Sanchez, M.T. do N. Varella,

M.A.P. Lima, and M.J. Brunger

Positron scattering from the cyclic ethers oxirane, 1,4-dioxane, and tetrahydropyran

J. CHEM. PHYS. 136 (2012) 124305

4.) J. D. Builth-Williams, S. M. Bellm, L. Chiari, P. A. Thorn, D. B. Jones, H. Chaluvadi, D.

H. Madison, C. G. Ning, B. Lohmann, G. B. da Silva, and M. J. Brunger

A dynamical (e,2e) investigation of the structurally related cyclic ethers tetrahydrofuran,

tetrahydropyran, and 1,4-dioxane

J. CHEM. PHYS. 139 (2013) 034306




EUR. PHYS. J. D 68 (2014) 161



wieloatomowych


7.) A.S. Barbosa and M.H.F Bettega

Elastic cross sections for low-energy electron collisions with tetrahydropyran

EUR. PHYS. J. D 70 (2016) 34



energies


9.) Meera D. Gurung




10.) Kedong Wang, Xue Li Haoxing Zhang Ju Meng Jing Yang

Low-energy electron elastic scattering from ethylene oxide and thiirane

EUR. PHYS. J. D 72 (2018) 68

ARTICLE 35

Cross sections for electron scattering from furan molecules; measurements and calculations

Cz. Szmytkowski, P. Możejko, E. Ptasińska-Denga, A. Sabisz

Phys. Rev. A 82 (2010) 032701

Cited in:

1.) L.R. Hargreaves, R. Albaridy, G. Serna, M.C.A. Lopes and M.A. Khakoo

Electron-impact vibrational excitation of furan

PHYS. REV. A 84: 062705 (2011)

2.) da Costa, Romarly F., Bettega, Marcio H. F., Varella, Marcio T. do N., Lima M.A.P.

Electronic excitation of the B-1(2) state of furan by electron impact

Source: XXVII INTERNATIONAL CONFERENCE ON PHOTONIC, ELECTRONIC

AND ATOMIC COLLISIONS (ICPEAC 2011), PTS 1-15

Book Series: Journal of Physics Conference Series 388 (2012) 012015

3.) R.F. da Costa, M.H.F. Bettega, M.A.P. Lima, M.C.A. Lopes, L.R. Hargreaves, G. Serna,

M.A. Khakoo,

Electronic excitation of gas-phase furan molecules by electron impact

PHYS. REV. A 85 (2012) 062706

4.) J.B. Maljkovic, F. Blanco, G. Garcia, B.P. Marinkovic and A.R. Milosavljevic

Relative differential cross sections for elastic electron scattering by furan

Proceedings of XXI ESCAMPIG 2012, Portugal, p. 165

5.) J.B. Maljkovic, F. Blanco, R. Curik, G. Garcia, B.P. Marinkovic and A.R. Milosavljevic

Absolute cross sections for electron scattering from furan

J. CHEM. PHYS. 137 (2012) 064312

6.) I. Linert and M. Zubek

Elastic electron scattering and vibrational excitation of isoxazole molecules in the energy

range from 2 to 20 eV

PHYS. REV. A 86 (2012) 022708



J. CHEM. PHYS. 138 (2013) 234311

8.) J. Malijkovic

Absolute differential cross sections for elastic electron scattering from small

biomolecules

J. PHYS: CONF. SERIES 565 (2014) 012005



2,5-dimethylfuran

MOL. PHYS. 113 (2015) 55-62

10.) M. Dampc, I. Linert, and M. Zubek

Ionization and fragmentation of furan molecules by electron collisions

JOURNAL OF PHYSICS B 48 (2015) 165202

11.) K. Regeta and M. Allan

Absolute cross sections for electronic excitation of furan by electron impact


12.) Romarly F. da Costa, Márcio T. do N. Varella, Márcio H. F. Bettega, Rafael F. C. Neves,

Maria Cristina A. Lopes, Francisco Blanco, Gustavo García, Darryl B. Jones, Michael J.

Brunger, and Marco A. P. Lima

The electron-furfural scattering dynamics for 63 energetically open electronic states

J. CHEM. PHYS. 144 (2016) 124310

13.) International Bulletin on Atomic and Molecular Data for Fusion No. 70 (2016) Ed. H.K.

Chung, International Atomic Energy Agency (Vienna 2016)

14.) DIEGO FARAGO PASTEGA

Colisões de elétrons de baixa energia por sistemas em fase gasosa e fase líquida

PhD Thesis UNIVERSIDADE FEDERAL DO PARANÁ 2017 Curitiba

15.) A. Traoré Dubuis, A. Verkhovtsev, L. Ellis-Gibbings, K. Krupa, F. Blanco, D. B. Jones,

M. J. Brunger, and G. García

Total cross section of furfural by electron impact: Experiment and theory




energies


17.) Mohit Swadia, Rakesh Bhavsar, Yogesh Thakar, Minaxi Vinodkumar & Chetan

Limbachiya

Electron-driven processes for furan, tetrahydrofuran and 2, 5-dimethylfuran









ARTICLE 36

Electron-scattering from hexafluoroacetone molecules:cross section measurements and

calculations

Cz. Szmytkowski, P. Możejko, and E. Ptasinska-Denga

J. PHYS. B 44 (2011) 205202

Cited in:



ARTICLE 37

Cross sections for electron collision with five-membered ring heterocycles

Pawel Mozejko, Elzbieta Ptasinska-Denga and Czeslaw Szmytkowski

EUR. PHYS. J. D 66 (2012) 44

Cited in:

1.) I. Linert and M. Zubek

Elastic electron scattering and vibrational excitation of isoxazole molecules in the energy

range from 2 to 20 eV

PHYS. REV. A 86 (2012) 022708

2.) R.F. da Costa, M.T. do N. Varella, M.A.P. Lima and M.H.F. Bettega

Low-energy electron collisions with tiophene

J. CHEM. PHYS. 138 (2013) 194306



J. CHEM. PHYS. 138 (2013) 234311



2,5-dimethylfuran

MOL. PHYS. 113 (2015) 55-62

5.) M. Vinodkumar, H. Desai, and P.C. Vinodkumar

Electron induced chemistry of thiophene RSC ADVANCES 5 (2015) 24564-24574



7.) A. I. Lozano, A. Loupas, F. Blanco, J. D. Gorfinkiel, and G. García

Total electron scattering cross sections from thiophene for the (1-300 eV) impact energy

range

J. CHEM. PHYS. 149 (2018) 134303

8.) Alexandra Loupas, Khrystyna Regeta, Michael Allan, and Jimena D. Gorfinkiel

Shape and Core-Excited Resonances in Thiophene

J. PHYS. CHEM. A 122 (2018) 1146–1155

9.) Alexandra Loupas, Ana. I. Lozano, Francisco Blanco, Jimena D. Gorfinkiel, and

Gustavo García

Cross sections for electron scattering from thiophene for a broad energy range

J. CHEM. PHYS. 149 (2018) 034304

10.) Dhanoj Gupta, Heechol Choi, Suvam Singh, Paresh Modak, Bobby Antony, Deuk-Chul

Kwon, Mi-Young Song, and Jung-Sik Yoon

Total ionization cross section of cyclic organic molecules

J. CHEM. PHYS. 150 (2019) 064313

11.) D. B. Jones, M. Mendes, P. Limão-Vieira, F. Ferreira da Silva, N. C. Jones, S. V.

Hoffmann, and M. J. Brunger

Electronic structure and VUV photoabsorption measurements of thiophene

J. CHEM. PHYS. 150 (2019) 064303

ARTICLE 38

Cross section calculations for electron impact ionization and elastic scattering from

cisplatin

B. Żywicka and P. Możejko

EUR. PHYS. J. D 66, (2012) 54

Cited in:

1.) R. Carey, R.R. Lucchese, F.A. Gianturco

Electron scattering from gas phase cis-diamminedichlorioplatinum (II): Quantum

analysis of resonance dynamics

J. CHEM. PHYS. 138 (2013) 204308

2.) Patrick Moretto-Capelle, Jean-Philippe Champeaux, Charlotte Deville, Martine Sence,

Pierre Cafarelli Specific cationic emission of cisplatin following ionization by swift protons

EUR. PHYS. J. D 70 (2016) 111

3.) D. Mahato, R. Naghma, M.J. Alam, S. Ahmad, B. Antony

Electron impact ionisation cross section for organoplatinum compounds

MOL. PHYS. 114 (2016) 3104-3111

4.) D. Mahato, R. Nagma, B. Antony

Electron impact ionization cross sections for organoplatin compounds: cisplatin,

carboplatin and oxaliplatin

Topical Conference on Charged Particle Collisions and Electronic Processes in Atoms,

Molecules and Materials qPaCE2016 Indian School of Mines, Dhanbad, PP 28 (2016) 150

5.) Ma del Refugio Cuevas-Flores, Marco Antonio Garcia-Revilla, Massimiliano Bartolomei

Noncovalen interactions between cisplatin and graphene prototypes

JOURNAL OF COMPUTATIONAL CHEMISTRY 39 (2018) 71-80

ARTICLE 39

Scattering of electrons from 1-butene, H2C=CHCH2CH3, and 2-methylpropene,

H2C=C(CH3)2, molecules

P. Możejko, E. Ptasińska-Denga, Cz. Szmytkowski, and M. Zawadzki

J. PHYS. B 45, (2012) 145203

Cited in:

1.) A.R. Lopes, T.C. Freitas, and M.H.F. Bettega

Electron collisions with 1-butene and 2-methylpropene molecules

JOURNAL OF PHYSICS B 48 (2015) 135201





24–32

3.) M. J. Brunger


INT. REV. PHYS. CHEM. 36 (2017) 333-376

4.) Meera D. Gurung




ARTICLE 40

Electron-scattering cross sections for 1-pentene, H2C=CH-(CH2)2CH3, molecules

Cz. Szmytkowski, P. Możejko, M. Zawadzki, and E. Ptasińska-Denga

J. PHYS. B 46 (2013) 065203

Cited in:

1.) M. J. Brunger


INT. REV. PHYS. CHEM. 36 (2017) 333-376

2.) M.J. Brunger


INT. REV. PHYS. CHEM. 36 (2017) 333-376

3.) D.G. Mesquita da Silva

Seccoes de Choque Totais do Espalhamento de Eletrons por Biomoleculas na Regiao de

Biaxas Energias

Ph.D. Thesis Universidade Federal de Juiz de Fora 2018

ARTICLE 41

Cross section calculations for electron scattering from platinum chemotherapeutic

compounds

B. Żywicka and P. Możejko

EUR. PHYS. J. SPECIAL TOPICS 222 (2013) 2285-2292

Cited in:

1.) D. Mahato, R. Naghma, M.J. Alam, S. Ahmad, B. Antony

Electron impact ionisation cross section for organoplatinum compounds

MOL. PHYS. 114 (2016) 3104-3111

2.) D. Mahato, R. Nagma, B. Antony

Electron impact ionization cross sections for organoplatin compounds: cisplatin,

carboplatin and oxaliplatin

Topical Conference on Charged Particle Collisions and Electronic Processes in Atoms,

Molecules and Materials qPaCE2016 Indian School of Mines, Dhanbad, PP 28 (2016) 150

https://scholar.google.pl/citations?view_op=view_citation&hl=pl&user=VbggVLUAAAAJ&cstart=40&citation_for_view=VbggVLUAAAAJ:r0BpntZqJG4C

https://scholar.google.pl/citations?view_op=view_citation&hl=pl&user=VbggVLUAAAAJ&cstart=40&citation_for_view=VbggVLUAAAAJ:r0BpntZqJG4C

ARTICLE 42

Electron-impact ionization of fluoromethanes - Review of experiments and binary-

encounter models

Grzegorz P. Karwasz, Paweł Możejko and Mi-Young Song

INT. J. MASS. SPECTROM. 365-366 (2014) 232

Cited in:

1.) Song, M.-Y., Yoon, J.-S., Cho, H., Itikawa, Y., Karwasz, G.P., Kokoouline, V.,

Nakamura, Y., Tennyson, J.

Cross sections for electron collisions with methane

J. Phys. Chem. Ref. Data 44 (2015) 023101

2.) Pankaj Verma, Rahla Naghma, Bobby Antony

Electron impact ionisation cross sections derived from total inelastic cross section for

CF3X and CF2X2 (X = H, Cl, Br and I) molecules

MOL. PHYS. 114 (2016) 1778-1786



4.) Mi-Young Song, Jung-Sik Yoon, Hyuck Cho, Grzegorz P. Karwasz, Viatcheslav

Kokoouline, Yoshiharu Nakamura and Jonathan Tennyson

Cross Sections for Electron Collisions with Acetylene

J. PHYS. CHEM. REF. DATA 46 (2017) 013106

5.) Dhanoj Gupta, Heechol Choi, Mi-Young Song, Grzegorz P. Karwasz, Jung-Sik Yoon

Electron impact ionization cross section studies of C2Fx (x= 1−6) and C3Fx (x=1−8)

fluorocarbon species

EUR. PHYS. J. D 71 (2017) 88

6.) Kamil Fedus and Grzegorz Karwasz

Electron scattering on molecules: search for semi-empirical indications

EUR. PHYS. J D 71 (2017) 138

7.) Grzegorz P. Karwasz

ELECTRON SCATTERING ON ATOMS AND MOLECULES: SEARCH FOR SEMI-

EMPIRICAL INDICATIONS

ICAMDATA Program Book Gunsan (2016) 28

8.) Mi-Young Song Jung-Sik Yoon Hyuck Cho, Grzegorz P. Karwasz, Viatcheslav

Kokoouline, Yoshiharu Nakamura, James R. Hamilton and Jonathan Tennyson

Cross Sections for Electron Collisions with NF3

Journal of Physical and Chemical Reference Data 46 (2017) 043104 9.) Dhanoj Gupta, Heechol Choi, Deuk-Chul Kwon, Jung-Sik Yoon and Mi-Young Song

Electron induced ionization of plasma processing gases: C4Fx (x  =  1–8) and the isomers

of C4F6 and C4F8

J. Phys. D: Appl. Phys. 51 (2018) 155203




ARTICLE 43

Electron-scattering cross sections for selected alkyne molecules: Measurements and

calculations

Cz. Szmytkowski, P. Możejko, M. Zawadzki, K. Maciąg, and E. Ptasinska-Denga,

PHYS. REV. A 89 (2014) 052702

Cited in:

1.) Y. Xu, L.H. Li, and P.K. Chu

Deposition of diamond-like carbon films on interior surface of long and slender quartz

glass tube by enhanced glow discharge plasma immersion ion implantation

SURFACE & COATINGS TECHNOLOGY 265 (2015) 218-221

2.) Y. Xu, L.H. Li, and P.K. Chu

Researches on uniformity of diamond-like carbon films deposited on inner surface of long

and slender quartz glass tube by enhanced glow discharge plasma immersion ion

implantation and deposition

SURFACE & COATINGS TECHNOLOGY 280 (2015) 81-85

3.) Mi-Young Song, Jung-Sik Yoon, Hyuck Cho, Grzegorz P. Karwasz, Viatcheslav

Kokoouline, Yoshiharu Nakamura and Jonathan Tennyson

Cross Sections for Electron Collisions with Acetylene

J. PHYS. CHEM. REF. DATA 46 (2017) 013106

4.) Meera D. Gurung




5.) Suvam Singh1, Dhanoj Gupta2 and Bobby Antony

Plasma-relevant electron scattering cross sections of propene

Plasma Sources Sci. Technol. 27 (2018) 105014

ARTICLE 44

Scattering of electrons by 1,2-butadiene (C4H6) molecule: measurements and calculations

Czesław Szmytkowski, Paweł Możejko, Mateusz Zawadzki, and Elżbieta Ptasińska-Denga

J. PHYS. B 48 (2015) 025201

Cited in:








24–32

3.) Meera D. Gurung







ARTICLE 45

Electron collisions with methyl-substituted ethylenes: Cross section measurements and

calculations for 2-methyl-2-butene and 2,3-dimethyl-2-butene

Czesław Szmytkowski, Sylwia Stefanowska, Mateusz Zawadzki, Elżbieta Ptasińska-Denga, and

Paweł Możejko

J. CHEM. PHYS.143 (2015) 064306

Cited in:

ARTICLE 46

Electron scattering from 2-methyl-1,3-butadiene, C5H8, molecules: Role of methylation

Czesław Szmytkowski, Sylwia Stefanowska, Mateusz Zawadzki, Elżbieta Ptasińska-Denga

and Paweł Możejko

PHYS. REV. A 94 (2016) 042706

Cited in:

1.) Matheus B. Kiataki, Diego F. Pastega, and Márcio H. F. Bettega

Electron scattering by the hydrocarbons C4H6,C5H8, and C6H10

Phys. Rev. A 96 (2017) 042711

2.) M.B. Kiataki

Espalhamento de electrons por hidrocarbonetos (C4H6, C5H8, C6H10) e halogenetos

(CF3Br, CF3I, C3F6)

M.Sc. Thesis Universidade Federal do Parana, Curtiba 2018

3.) İskender Muz, Mustafa Kurban

Ab initio study of structural and electronic properties of SinC5-nH8(n = 0–5) series:

Probing the 2D to 3D structural transition

INORGANICA CHIMICA ACTA 477 (2018) 318-325

ARTICLE 47

Cross sections calculations for electron scattering from dimethylamine, NH(CH3)2, molecule

Paweł Możejko, Bożena Żywicka and Alicja Domaracka

J. Phys.: Conf. Ser. 875 (2017) 062048

Cited in:

1.) Rajbeer Singh, Manoj Kumar. Satyendra Pal

Electron impact ionization cross sections for methylamines

Journal of Electron Spectroscopy and Related Phenomena 226 (2018) 22-25

ARTICLE 48

Electron-scattering total cross sections for complex molecules: group additivity rule

A. Domaracka, P. Możejko, E. Ptasińska-Denga, Cz. Szmytkowski

Publications de l'Observatoire Astronomique de Beograd 84, 35-38 (2008)

Cited in:

1.) Bug, Marion Ute,


Doctor of Philosophy thesis, School of Physics, University of Wollongong, 2014.




RADIAT. PHYS. CHEM. 130 (2016) 459-479

https://scholar.google.pl/citations?view_op=view_citation&hl=pl&user=VbggVLUAAAAJ&cstart=40&citation_for_view=VbggVLUAAAAJ:bEWYMUwI8FkC

Electron scattering on SO2 and OCS

Czesław Szmytkowski, Paweł Możejko and Grzegorz Kasperski

28th EGAS Conference, Graz 1996 (Graz, 1996) Abstracts pp 576-7

Cited in:





Electron scattering on triatomic molecules: SO2, OCS and N2O

Czesław Szmytkowski, Paweł Możejko and Grzegorz Kasperski

18th Summer School and International Symposium on the Physics of Ionized Gases, Kotor

1996 (Novi Sad, 1996) Abstracts pp 66-9

Cited in:





2.) K.N Joshipura and Sumona Gangopadhyay

Electron collisions with sulfur compounds SO, SO2 and SO2AB (A, B = Cl, F):

various total cross sections


Unpublished results or articles in press

Możejko, P.; Parenteau, L.; Bass, A. D.; Sanche, L.,

Możejko et al

Karwasz G P, Brusa R S, Zecca A, Mozejko P, Kasperski G, Szmytkowski Cz

Cited in:

1.) Abdoul-Carime H, Sanche L

Mechanism for Anion and Sulfur-Radical Production by 1-18 eV Electron Impact on

Dimethyl Disulfide Adsorbed on Ice

J. PHYS. CHEM. B 106: 12186-12190 (2002)

2.) Huels M A, Parenteau L, Sanche L

Reactive scattering of 1-5 eV O- in films of tetrahydrofuran

J. PHYS. CHEM. B 108: 16303-16312

3.) Karwasz G P


WSP Słupsk (1997)

SUM: 854 citations (without self citations) H factor 17 (without self citations)

Documents

ARTICLE 1 Cited in · Rozprawa doktorska, PG Gdańsk 2008 14.) R. L. Hudson Infrared spectra and band strengths of CH3SH, an interstellar molecule PHYS. CHEM. CHEM. PHYS. 18 (2016)