BIO - diat.ac.in · BIO 2-36 24-Feb-19 8. Research Experience: 15 years of research experience in the fields of synthesis of carbon nano-structures and their application engineering

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C–V OF Dr. P. S. ALEGAONKAR

_____________________________________________________________

1. Name : Dr. PRASHANT SUDHIR ALEGAONKAR

2. Birth Date and Place : 10–05–1976 (Nashik, Maharashtra, India)

3. Years of completing : M.Sc (Physics), 1999,

M.Sc. and Ph.D. degrees University of Pune, Pune (Maharashtra)

Ph.D. (Physics), 2004,

University of Pune, Pune.

4. Languages : Marathi --- Mothertounge

Hindi and English

Deutsch and Hangeul

5. Address for Correspondence : Department of Applied Physics,

Defence Institute of Advanced

Technology, Girinagar, Pune–25,

Maharashtra, India

mail: [email protected]

6. Residential Address : Flat No. 304, Shreephal Homes,

Ajinkya Park Hsg. Society,

Baner, Pune – 411 045, MS, INDIA.

7. Teaching Experience:

(a) STATE ELIGIBLITY TEST (SET), MAHARASHTRA eligibility test for

Lecturership in PHYSICS, Conducted by University of Pune, Pune (2000).

(b) 15years of teaching experience @ M. Tech./M. E./ M.Sc. (Applied Physics) degree

courses.

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8. Research Experience : 15 years of research experience in the fields of synthesis of

carbon nano-structures and their application engineering.

9. Research Publications : Total No. of papers : 135 (One thirty five)

Scopus Indexed Journals : 88 (Eighty eight)

Book Chapters : 05 (Five)

Conference Proceedings : 50 (Fifty)

Patent : 01(One)

Google h-index : 19 (Nineteen)

10. Conferences/Workshop: Attended more than fifty (50) conferences,

Symposia/etc. workshops, symposia in the country and presented papers.

11. Details of Appointments, Positions, etc. held :

(g) Assistant Professor : Department of Applied Physics,

Defence Institute of Advanced Technology,

Girinagar, Pune 411 025

Maharashtra, India

(f) Lecturer in Physics : Department of Applied Science,

College of Engineering, Pune, (COEP),

Wellesley Road, Shivajinager, Pune 411 005,

Maharashtra, India

(e) School of Advanced Materials Science and Engineering, Sungkyunkwan University,

Suwon, Korea.

(ii) Research asst. prof. (BRAIN–KOREA 21): 1st Sept. 2006 till 31st Dec. 2007.

(i) Postdoctoral researcher : 1st Apr. 2005–31st Aug. 2006.

(d) Council of Scientific and Industrial Research (CSIR), New Delhi, India.

(ii) Senior research fellow (extended) : 1st Apr. 2005– (resg.).

(i) Senior research fellow : 1st Jul. 2002–31st Mar. 2005.

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(c) German Academic Exchange Service (DAAD–Fellowship), Bonn, Germany

Hahn–Meitner–Institute, Berlin : 1st Jun.– 30th Nov. 2002 (6 Months).

(b) Indian Space Research Organization, Dept. of Space, Bangalore, India.

Junior research fellow : 1st May 2000–30th Jun. 2002.

(a) Inter–Univ.–Consortium for Dept. of Atomic Energy facilities, Indore, India.

Project assistant : 15th Jun. 99 – 30th Apr. 2000.

12. Awards / Honors:

(b) Dr. R.K. BHALLA, Best Research Student Award of the Department of Physics

University of Pune, Pune, for the year 2002.

(a) Dr. B.K. RAI, Best Research Paper Prize to one Research Paper in the Raman

Memorial National Conference (2001).

13. Fellowship / Membership:

(b) Member of the Korean Physical Society, 2005 onwards.

(a) Member of the Indian Physics Association (Pune Chapter), 2001 onwards.

14. Major Research Contributions:

Dr. P. S. Alegaonkar has worked in the following research areas:

(d) (i) Thermal– and plasma enhanced–chemical vapor deposition systems to grow single

wall carbon nanotubes, thin–multi wall carbon nanotubes, (ii) Used water–assisted chemical

vapor deposition system to grow ultra long multi walled carbon nanotubes, (iii)

commissioned 2.7 T magnetic chemical vapor deposition system., (iv) used high resolution

electron microscope and related characterization techniques for the structural investigations

of carbon nanotubes and carbon nano-structures.

(c) (i) Studied field emission characteristics and emission stability of multiwall carbon

nanotube composites at low as well as ultra high vacuum conditions, (ii) degradation and

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emission stability of plasma conditioned multi wall carbon nanotube composites, (iii)

electrical aging of nanotube composites.

(b) (i) Studied Radiation Assisted Diffusion of lithium in polystyrene, and of

boron/fluorine/silver in polyimide using swift heavy ions, electrons and gamma rays. (ii)

Performed diffusion simulations on boron and lithium in polymers using DIFF and EVA

computational codes, (iii) Tailored dielectric parameters of polyimide using 1–MeV electrons

and Co-60 Gamma rays, (iv) Studied free volume evolution in polymers by 6–MeV electrons

using Positron annihilation technique, (v) studied formation of nano-ion-tracks in polymers

for device applications.

(a) Used (i) 7 MeV Pulsed Electron Accelerator (Race-track Microtron), Department of

Phsyics, University of Pune, Pune, India, (ii) 14 MeV Neutron Generator, University of Pune,

(iii) 14 UD Palletron, Inter-University Accelerator Center, New Delhi, (iv) 1 GeV Ion

Spectrometry Laboratory, Hahn–Meitner–Institute, Berlin, Germany, (v) Neutron depth

profiling technique to measure the depth distribution of boron and lithium in polymers

(Hahn–Meitner–Institute), (vi) Indus–1 synchrotron radiation facility at CAT, Indore.

15. Summary of The Scientific Contributions of Dr. P. S. Alegaonkar:

Dr. P. S. Alegaonkar has carried out work in various fields including synthesis and

applications of nano-materials and radiation induced modifications in polymers, using

electrons and swift heavy ion beams. He has designed and fabricated a number of equipment

and used in his research work. In addition, he has also used various national and international

characterization facilities for his research work. The major scientific contributions made by

Dr. P. S. Alegaonkar are described below, in brief.

(II) SYNTHESIS AND APPLICATION OF NANO-MATERIALS:

(a) Using plasma enhanced chemical vapour deposition (CVD) and

thermal–CVD studied growth of carbon nanotubes. Used SAPO4–5, AlPO4–5

(Zeolites) materials for surface selective and diameter controlled growth of carbon

nanotubes.

(b) Used porous silicon templates (SiO2/Pt/Si) for studying growth of multi-

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shell, grape–like carbon nanoparticles and carbon nanotubes.

(c) Synthesized thin–multiwall carbon nanotube composites cathode–layers

for field emission display application.

(d) For Samsung, SDI, Korea, under a research program, studied effect of

plasma conditioning on the stability of field emission current density

and lifetime of the cathode–layers.

(e) Studied the field emission behaviour of carbon nanotube composites

coated by thin (~ 1–2 nm) SiOx.

(f) Used water–assisted CVD to synthesize thin (6–7 nm) and long (> 550

µm) carbon nanotubes.

(g) For the first time in the country (Korea), commissioned and put into

operation one 2.3 Tesla super conducting magnetic CVD system.

Developed all supporting equipment and subsystems using indigenously

available components, as far as possible. Synthesized single wall and

selective double wall carbon nanotubes.

(h) In DIAT (DU), since after joining, set up two laboratories (i) Raman scattering

laboratory, and (ii) Nano-materials and synthesis laboratory under DIAT-DRDO

program on nanomaterials.

(I) RADITION–INDUCED MODIFICATIONS IN POLYMERS:

(a) Using the radiation assisted technique, diffused Low–Z–elements such

as boron, lithium, fluorine and high–Z–elements like copper, silver in polymers at

room temperature and measured their depth distribution using various

characterization techniques. Studied opto–electric parameters of boron and

fluorine diffused polyimide over the frequency range 100 Hz to 7 MHz.

(b) Studied radiation-induced diffusion and nano-clustering of silver atoms

in the surface region of polymers. Computed condensation/diffusion coefficients

for silver atoms.

(c) Based on controlling the electronic polarizablity, αe, via 1–MeV

electron irradiation and (Co-60) radiation-assisted boron-fluorine-diffusion, he

developed an alternative method to synthesize the fluorinated-polyimide,

commonly used in manufacturing inter-layer dielectric medium. This method

could industrially be adopted for reducing the dielectric constant, ε’, of

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commercially available polyimide from 3.15 to around 2.57 (1 kHz) using the

Race-Track Microtron facility. The refractive index, n, of polyimide can also be

reduced from 1.71 to 1.44, without much sacrificing the mechanical properties of

polyimide.

(d) Measured free volume generation using positron annihilation and gas

evolution using residual gas analysis for polyimide exposed to 6–MeV pulsed

electron beam.

(e) Used BER–II rector, Hahn-Meitner-Institute, Berlin for the neutron

depth profile system. Performing diffusion simulations, he showed that, for

lithium ions (15 keV) implanted in polystyrene, at low fluences, trapping of

lithium dominates over the migration process, whereas at higher fluences the

excess free volume formation takes over the lithium trapping process.

(f) Produced ion track based nano-inductor coils by bombarding 450 MeV

Krypton ions on a polyimide specimens and characterized using Ion Transmission

Spectrometry technique.

16. National / International Facilities Used For The Research Work:

(a) Used 1-MeV, 6-MeV pulsed electron accelerator (race-Track Microtron) from

Department of Physics, University of Pune and Co–60 radiation facility from

Department of Chemistry, University of Pune.

(b) Used a facility, for the Neutron Depth Profiling for low Z elements (B, Li, N)

using thermal neutrons, available at BER-II, Neutron Scattering Center, Hahn-

Meitner-Institute, Germany and the Dhurva Reactor Hall, BARC, Mumbai. The

depth profiling of boron and lithium in polymers and metallic glasses samples

have been studied.

(c) Used ion beam facility of IUAC, New Delhi for studying irradiation effects of

150 MeV Si, 70 MeV Fl, 50 MeV Au, ions on polyimide.

(d) Used heavy ions of the Hahn–Metiner–Institut, Berlin, for producing latent ion

tracks of energetic heavy ions on polymers.

(e) Used Ion Accelerator of National Center for Characterization of Compositional

Materials (NCCCM) D.A.E., Hyderabad, for studying the elemental depth

profiling and R.B.S. studies.

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(f) Used Ion Accelerator of Institute of Physics (IOP), Bhubaneshwar.

(g) Used relaxation spectroscopy, light and neutron scattering characterization

facilities at UGC–DAE–CSR, Mumbai Center.

(h) Used various faculties at UGC–DAE–CSR, Kolkata Center.

(i) Used synchrotron radiation facility at Center for Advance Technology (CAT) and

various faculties at UGC–DAE–CSR, Indore Center.

17. Research grants:

1) DIAT-DRDO Programme on Nanomaterials:

My role : work plan investigator (WPI)

Title of work plan : Large scale synthesis of graphene, graphene oxide (GO) and

carbon nanotubes for strategic applications

Sponsoring agency : ER-IPER, DRDO, New Delhi

(sanction letter details: ERIP/ER/1003883/M/01/908/2012/D

(R8D)/1416, dtd. 28.03.2012)

Year of sanction : April 2012

Duration : 05 Y

Amount : Rs. 43.00 Cr

2) ARMREB Board:

My role : work plan investigator (WPI)

Title of work plan : Fabrication of nanocarbon/ceramic fabric for soldier ware

armours

Sponsoring agency : ARMREB, DRDO, New Delhi

Year of sanction : in process

Duration : 03 + 02 Y

Amount : Rs. 50.00 Lac.

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18. Teaching experience, new courses or laboratories:

TEACHING

Title of course taught

Postgraduate/ Undergraduate

Primary Instructor/Shared

Instructor/TA/Tutor

Contact hours per

week

Year

Flight Instrumentation

[AE 617]

S. Y. M. Tech. (PG)

Primary Instructor 03 Jan-Jun 2019

Sensors, Transducer, and

Actuator [AP606]

F. Y. M. Tech. (PG)


Non-linear optics

[AP641]

S. Y. M. Tech. (PG)

Primary Instructor 04 Jul-Dec 2018

Prin. Of Sens. Mat. Sc. and

Phys. [AP 601]

F. Y. M. Tech. (PG)


Fire Engg. And Integrated

Safety [FE504]

F. Y. (PG DIP.)

Shared Instructor 04 Jul-Dec 2018


[AE 617]

S. Y. M. Tech. (PG)


Sensors and Actuator [AP606]

F. Y. M. Tech. (PG)


Integrated Optics and

Silicon Photonics [AP 634]

F. Y. M. Tech. (PG)

Shared Instructor 04 Jul-Dec 2017

Phys. Of Transduction

[AP 601]

F. Y. M. Tech. (PG)



[ AE 617 ]

S. Y. M. Tech. (PG)



F. Y. M. Tech. (PG)


Electromagnetic [AP 605]

F. Y. M. Tech. (PG)



F. Y. M. Tech. (PG)


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[ AE 617 ]

F. Y. M. Tech. (PG)


Electromagnetic [AP 605]

F. Y. M. Tech. (PG)



[ AE 617 ]

S. Y. M. Tech. (PG)


Applications of Sensor–II [AP 609]

F. Y. M. Tech. (PG)



[ AE 617 ]

S. Y. M. Tech. (PG)


Applications of Sensor–I [AP 602]

F. Y. M. Tech. (PG)


Conducting Materials

TSOC-23 Air Force

[Non. Tech.]

Shared Instructor 01/day 12-23 May 2014

Advanced Optics

[AP 606]

F. Y. M. Tech. (PG)



[ AE 617 ]

S. Y. M. Tech. (PG)


Applied Optics [AP 601]

F. Y. M. Tech. (PG)


Advanced Optics

[AP 606]

F. Y. M. Tech. (PG)



F. Y. M. Tech. (PG)


Laser and Electrooptics

TTC-40 (Term-I)

Shared Instructor 03-04 08 Feb – 08 May 2012

Advanced Optics

[AP 606]

F. Y. M. Tech. (PG)



F. Y. M. Tech. (PG)


Advanced Optics

[AP 606]

F. Y. M. Tech. (PG)

Shared Instructor 03 Jan-Jun 2011


F. Y. M. Tech. (PG)


Customized courses taught

Missile Technology

Bharat Dynamics Ltd.

Shared Instructor 06 Apr–May 2014

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Hydrabad Missile

Technology Bharat

Dynamics Ltd. Hydrabad

Shared Instructor 06 Nov–Dec 2013

Missile Technology

Bharat Dynamics Ltd.

Hydrabad

Shared Instructor 06 Sept–Oct 2013

Missile Technology

BrahMos Aerospace Ltd.,Delhi

Shared Instructor 06 Sept 13

Missile Technology

BrahMos Aerospace Ltd.,Delhi

Shared Instructor 06 Aug–Sept 14

Courses taught at Undergraduate level

Applied Sciences-II

F. Y. B. Tech. (UG)

Primary Instructor 06 Practical

Jan-Jun 2010

Applied Sciences-II

F. Y. B. Tech. (UG)


Applied Sciences-I

F. Y. B. Tech. (UG)


Jul-Dec 2009

Applied Sciences-I

F. Y. B. Tech. (UG)


Applied Sciences-II

F. Y. B. Tech. (UG)


Jan-Jun 2009

Applied Sciences-II

F. Y. B. Tech. (UG)


Applied Sciences-I

F. Y. B. Tech. (UG)


Jul-Dec 2008

Applied Sciences-I

F. Y. B. Tech. (UG)


Applied Sciences-II

F. Y. B. Tech. (UG)


Jan-Jun 2008

Applied Sciences-II

F. Y. B. Tech. (UG)


WORK DONE TOWARDS DEVELOPING NEW COURSE OR LABORATORIES

Developed new laboratory worth of Rs. 02.00 Cr. in Sensor Technology. Framed syllabus for

M. Tech. programs in Laser and Electro-optics, Sensor Technology. Conducted Board of

studies meeting, brainstorming discussion with national experts, syllabus for Missile

Technology, and Fire Engineering courses.

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THESIS SUPERVISION

Name of student /

research scholar

Title of Thesis Doctorate / Master's

Year of completion

Co-guide (If any)

Doctorate thesis

Shamal Chinke Graphene based nano-composites for defence

applications

Doctorate In progress Nil.

Shreeram Joglekar

Premedical diagnosis of metabolic disorder using nanocomposite: point-of-

care

Doctorate In progress Dr. Anup Kale

Rakesh Kumar Kalal

Studies on thermo-physical properties of

propulsion system components

Doctorate In progress Dr. Himanshu Sekher, HEMRL,

Pune

Inderpal Singh Sandhu

Design and establishment of test setups for blast

evaluation and studies on blast mitigation in

polyurethane-,rubber- foam and other media

Doctorate In progress Dr. D. R. Saroha, TBRL, CG

Krishna Chand Tripathy

Modelling and performance evaluation of nanosized material for electromagnetic and microwave absorption

Doctorate 2017 Nil

Arvind Kumar Design and development of chemical vapour deposition system and preparation and performance evaluation of graphene like nanocarbons

Doctorate 2016 Nil

Master’s thesis

Solomon Behare Non-conventional velocity measurement method for small projectile

M. Tech. 2019 Nil

Pramod Kamble Thermal stage for Raman spectrometer

M. Tech. 2019 Nil

Sachin Sherawat Reduced graphene oxide based supercapacitor

M. Tech. 2018 Nil

Rohit Kumar Development of interferometric optical filter

M. Tech. 2017

Sushant Preparation and M. Tech. 2017 Nil

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Haladkar performance evaluation of carbon nanospheres for ultra capacitor

Seema Gutam CNT based gas sensors and field emitters

M. S. (Research)

2015 Dr. Neeraj Jain, SSPL, Delhi

Neha Pazre Design of orthogonally polarized diversity antenna for ultra wide band applications

M. Tech. 2015 Dr. Raj Kumar

Ashok Charkha Denoising Bio-sensor signals using wavelets


Sudhendra M N Generation of Mid IR tuneable Laser source using AGC OPO


Aritra Roy Surface Plasmon resonance enhanced multicolour photoconduction using graphene

M. Tech. 2014 Prof V N Bhoraksar

Vinod Rathore Electronic structure study of graphene, defected graphene and doped graphene using DFT

M. Tech. 2014 Prof. A. L. Kshirsagar

V. Prasad Kumar

Design and experimentation on single channel range finder and study of optical limiting media


Ankita Khanolkar

Study of diode pumped Er : Glass Laser with Q switched operation

M. Tech. 2013 Nil

Milind Malegaonkar

Development of Laser Range simulator using Fibre Optics

M. Tech. 2013 Nil

B Sridhar DFT calculations on nitrogen functionalized Carbon Nanotubes

M. Tech. 2010 Nil

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List of Publications

Papers published in the SCI journals, conference proceedings and book chapters by Dr. P. S.

Alegaonkar.

Total no. of papers : 135 (One thirty five)

Scopus Indexed Journals : 88 (Eighty eight)

Book Chapters : 05 (Five)

Conference Proceedings : 50 (Fifty)

Patent : 01(One)

Google h-index : 19 (Nineteen)

_______________________________________________________________________

A) Books chapters

(5) Double layer capacitors

Ashwini P. Alegaonkar, Satish K. Pardeshi, Prashant S. Alegaonkar

Materials Research Foundations series or Materials Research Proceedings series

(submitted)

(4) Self-healing aspects of graphene oxide / polymer nano-composites.

Shamal L.Chinke, Prashant S. Alegaonkar


(Article-in-press)

3) Metal-Organic-Framework-Based Materials for Renewable Energy Applications.

Ashwini P. Alegaonkar, Vidya K. Kalyankar, Prashant S. Alegaonkar


(submitted)

2) Nanocarbon preparation and evaluation for structural engineering, spintronics,

gas sensing, EMI shielding, and cloaking in X-band

Ashwini P Alegaonkar, Prashant S Alegaonkar

Nanocarbon and Its Composites: Preparation, Properties and Applications, Woodhead

Publishing, 171-287, 2018

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1) Nano-Carbon/Polymer Composites for Electromagnetic Shielding, Structural

Mechanical and Field Emission Applications

Ashwini P Alegaonkar, Prashant S Alegaonkar

Thermoset Composites: Preparation, Properties and Applications, Materials Research

Forum LLC, 38, 128, 2018.

B) SCI Journals

88) Design and fabrication of computer- controlled rapid thermal processor based water-

assisted chemical vapor deposition system for nanocarbon growth.

Arvind Kumar, Prashant S. Alegaonkar (in preparation)

87) X-band microwave comparison study in SrAl4Fe8O19 –RGO in Poly (Vinylidene)

Fluoride (PVDF) matrix

S. Acharya, P. S. Alegaonkar and S. Datar

Chemical Engineering (communicated) [Impact factor: 6.876]

86) Comparative blast pressure attenuation study of rubber foam in blast wave generator

and field test

I. S. Sandhu, M. B. Kala, M. Thangadurai, M. Singh, M., P. S. Alegaonkar,

D. R. Saroha

J. of Comb., Expl., and Shock Waves (communicated) [Impact factor: 1.260]

85) Synthesis and characterization of graphene-like nano Ribbons (GNR) using

Chemical Vapor Deposition for shock absorbent application.

S. Chinke, R. Gawade, P. Alegaonkar

AIP Proceedings (just accepted) [Impact factor: 0.560]

84) Synthesis and Characterization of Graphene-Like Nano Flakes (GNF) using Chemical

Vapor Deposition.

S. Chinke, R. Gawade, P. Alegaonkar,


83) Effect of Rocket propulsion exhaust on thermo-physical properties of graphite nozzle.

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R. Kalal, B. Ropia, S. Chinke, H. Shekhar, , P. Alegaonkar,


82) Graphene Like Nano Carbon (GNC): Synthesis, Characterizations and Shock

Absorption Application.

Shamal Chinke, Rohini Gawade, P. S. Alegaonkar,

Materials Today Proceedings (just accepted) [Impact factor: 0.870]

81) SrAl4Fe8O19 Hexaferriteand Reduced Graphene Oxide: For Microwave Absorption

Application.

S. Acharya, P. S. Alegaonkar and S. Datar

AIP conference proceedings (just accepted). [Impact factor: 0.560]

80) Studies on Heat Flux Imparted on Thermal Insulation Inside Rocket Motor

Containing Double Base Propellant

R.K. Kalal, H. Sekhar, P. S. Alegaonkar

J. of Aerospace Technol. and Management (article in press) [Impact factor: 0.801]

79) Experimental Study of Blast Wave Mitigation in Open Cell Foams

I. S. Sandhu, , M. B. Kala, M. Thangadurai, M. Singh, M., P. S. Alegaonkar,

D. R. Saroha

Materials Today: Proceedings, 5: 28170–28179, 2018. [Impact factor: 0.870]

78) Experimental and theoretical study of tetrakis (dimethylamino) ethylene induced

magnetism in otherwise nonmagnetic graphene derivatives

Ashwini P Alegaonkar, Aniruddha S Kibey, Prashant S Alegaonkar,

Anjali Kshirsagar, Satish K Pardeshi

Materials Chemistry and Physics, 222, 132-138, 2018. [Impact factor: 2.210]

77) Mitigation of Blast Induced Acceleration using open cell natural rubber and Synthetic

Foam

D.R. Saroha, Inderpal Singh Sandhu, Murugan Thangadurai, Prashant S. Alegaonkar

Defence Science Journal, 69, 1, 53-57, 2018. [Impact factor: 0.580]

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76) High performance tellurium-reduced graphene oxide pseudocapacitor electrodes

Ashwini P Alegaonkar, Manjiri A Mahadadalkar, Prashant S Alegaonkar,

Bharat B Kale, Satish K Pardeshi

Electrochimica Acta, 291, 225-233, 2018. [Impact factor: 5.510]

75) Graphene-Like Nanoflakes for Shock Absorption Applications

Shamal L Chinke, Inderpal Singh Sandhu, DR Saroha, Prashant S Alegaonkar

ACS Applied Nano Materials, 1, 11, 6027-6037, 2018. [Impact factor: yet to assign]

74) Preparation and performance evaluation of Carbon-Nano-Sphere for electrode double

layer capacitor

Sushant Haladkar, Prashant Alegaonkar

Applied Surface Science, 449, 500-506, 2018. [Impact factor: 4.220]

73) Enhanced microwave absorption property of Reduced Graphene Oxide (RGO)–

Strontiumhexa–Ferrite (SF)/Poly (Vinylidene) Fluoride (PVDF)

Sanghamitra Acharya, C.S. Gopinath, Prashant Alegaonkar, Suwarna Datar

Diamond and Related Materials, 89, 28-34, 2018.[Impact factor: 2.430]

72) Electrical characteristics of etched ion-tracks in polyimide filled with silver

nanoparticles

Tejashree Bhave, P.S. Alegaonkar, V. N. Bhoraskar, K.A. Bogle, D.K. Avasthi,

S. V. Bhoraskar

Rad. Eff. and Def. in Sold., 173,7-8, 617-628, 2018 [Impact Factor: 0.526]

71) Spin dynamics in graphene-like nanocarbon, graphene and their nitrogen adatom

Derivatives

Ashwini P Alegaonkar, Satish K Pardeshi, Prashant S Alegaonkar

Appl. Phys. A, 124, 7, 515-525, 2018. [Impact Factor: 1.694]

70) Investigation of Disorder in Mixed Phase, sp2–sp3 Bonded Graphene-Like

Nanocarbon

Sumati Patil, Sadhu Kolekar, Arvind Kumar, Prashant Alegaonkar, Suwarna Datar,

CV Dharmadhikari

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J. Nano Sc. Technol, 18, 4, 2504-2512, 2018. [Impact factor: 1.484]

69) Microwave absorption properties of reduced graphene oxide strontium

hexaferrite/poly(methyl methacrylate) composites

Sanghamitra Acharya, J Ray, TU Patro, Prashant Alegaonkar, Suwarna Datar

Nanotechnology, 29, 11, 115605, 2018. [Impact factor: 3.404]

68) Laponite-graphene oxide hybrid particulate filler enhances mechanical properties of

cross-linked epoxy

Devesh K. Chouhan, Arvind Kumar, Sangram K. Rath, Sanjay Kumar,

Prasant S. Alegaonkar, G. Harikrishnan, T. Umasankar Patro

J. Polym. Res., 25,02,60-65, 2018. [Impact factor: 1.134]

67) Ferro-nano-carbon split ring resonators a bianisotropic metamaterial in X-band:

Constitutive parameters analysis.

Resham V Jagtap, Ashok D Ugale, Prashant S Alegaonkar

Mat. Chem. Phys., 205, 366-375, 2018. [Impact factor: 2.210]

66) Enhanced response and improved selectivity for toxic gases with functionalized CNT

thin film resistors.

Seema Gautam, Deepak Kumar, Prashant S Alegaonkar, Pika Jha, Neeraj Jain,

Jaswant S Rawat

Integrated Ferroelectrics, 186,1,65-70, 2018. [Impact factor: 2.210]

65) Assessment of ecologically prepared carbon-nano-spheres for fabrication of flexible

and durable supercell devices.

Sushant A Haladkar, Mangesh A Desai, Shrikrishna D Sartale, Prashant S Alegaonkar

J. Mat. Chem. A, 6, 16, 7246-7256, 2018. [Impact factor: 9.931]

64) Microwave absorbing properties of MWCNT/carbon black-PU nano-composites.

Krishna Chandra Tripathi, SM Abbas, RB Sharma, PS Alegaonkar

IEEE Power, Control, Signals and Instrumentation Engineering, 17, 489-496, 2017

[Impact factor: 2.243]

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63) Exploring molecular and spin interactions of Tellurium adatom in reduced graphene

Oxide

Ashwini Alegaonkar, Prashant Alegaonkar, Satish Pardeshi

Materials Chemistry and Physics, 195, 82-87, 2017 [Impact factor: 2.210]

62) The interactions between CdTe quantum dots and proteins: understanding nano-bio

Interface

Shreeram S Joglekar, Harish M Gholap, Prashant S Alegaonkar, Anup A Kale

AIMS Materials Science, 4, 1, 209-222, 2017 [Impact factor: 2.936]

61) Effect of film thickness on gas sensing properties of sprayed WO3 thin films.

Rhushikesh Godbole, VP Godbole, PS Alegaonkar, Sunita Bhagwat

New J. Chem., 41, 20, 11807-11816, 2017 [Impact factor: 3.277]

60) Study of blast wave pressure modification through rubber foam,

Inderpal Singh Sandhu, Ankush Sharma, Mritunjay Kumar Singh, Rajesh Kumari,

Prashant S Alegaonkar, D. R. Saroha

Procedia engineering, 173, 570-576, 2017. [Impact factor: 0.890]

59) Nano-carbon: preparation, assessment, and applications for NH3 gas sensor and

electromagnetic interference shielding

Ashok D Ugale, Resham V Jagtap, Dnyandeo Pawar, Suwarna Datar, Sangeeta N

Kale, Prashant S Alegaonkar

RSC Advances, 6, 99, 97266-97275, 2016. [Impact factor: 2.936]

58) Graphene-like nanocarbon: An effective nanofiller for improving the mechanical and

thermal properties of polymer at low weight fractions

Arvind Kumar, Devesh Kumar Chouhan, Prashant S Alegaonkar, T Umasankar Patro

Composites Science and Technology, 127, 79-87, 2016. [Impact factor: 5.590]

57) Decoration of gold nanoparticles on thin multiwall carbon nanotubes and their use as

a glucose sensor

Rajesh K Gangwar, Vinayak A Dhumale, Kalyani S Date, Prashant Alegaonkar, Rishi

B Sharma, Suwarna Datar

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Materials Research Express, 3, 3, 035008, 2016. [Impact factor: 1.151]

56) Microwave Absorption Properties of Carbon Black Nano-filler in PU based

Nano-composites

KC Tripathi, SM Abbas, RB Sharma, PS Alegaonkar, Manish Verma

Intl. J. Adv. Res. Sci. Engg. Technol., 3, 2, 2016. [Impact factor: 1.552]

55) Microwave absorption studies of γ-ferrite and Ni-Zn ferrite / epoxy based

nano composite

K. C. Tripathi1, S. M. Abbas, R. B. Sharma, P. S. Alegaonkar, Manish Verma

Intl. J. Sci. Adv. Res. Technol., 1,12, 2015. [Impact factor: 5.114]

54) Structure-reinforcement correlation and chain dynamics in graphene oxide and

Laponite-filled epoxy nanocomposites

Devesh K Chouhan, Sangram K Rath, Arvind Kumar, PS Alegaonkar, Sanjay Kumar,

G Harikrishnan, T Umasankar Patro

Journal of materials science, 50, 22, 7458-7472, 2015. [Impact factor: 2.993]

53) Electromagnetic & microwave absorption properties of Carbon black/PU di-electric

Nano-composite absorber

K.C. Tripathi, S.M. Abbas, R.B. Sharma, P.S. Alegaonkar, Manish Verma

Intl. J. Sci. Adv. Res. Technol., 1, 7, 2015 [Impact factor: 1.084]

52) Impressive transmission mode electromagnetic interference shielding parameters of

graphene-like nanocarbon/polyurethane nanocomposites for short range tracking

countermeasures

Arvind Kumar, Prashant S Alegaonkar

ACS applied materials & interfaces, 7, 27, 14833, 2015. [Impact factor: 8.097]

51) Influence of fuel to oxidizer ratio on LPG sensing performance of MgFe2O4

nanoparticles,

R.V. Godbole, Pratibha Rao, P.S. Alegaonkar, Sunita Bhagwat

Materials Chemistry and Physics, 161, 135-141, 2015 [Impact factor: 2.210]

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50) Preparation and evaluation of carbon balck-MWCNT nanocomposites for microwave

applications, K. C. Tripathy, S. M. Abbas, R. B. Sharma, P. S. Alegaonkar

Intl. J. Sci. Res., 3, 2398, 2014. [Impact factor: 2.674]

49) Properties of spin bath of graphene–like nanocarbon

Arvind Kumar, Prashant S. Alegaonkar,

International Journal of Innovative Research in Science, Engineering and Technology

2014; 3 (6): 14049 - 14055. [Impact factor: 3.414]

48) Gold-graphene nanocomposite based ultrasensitive electrochemical glucose

sensor

Rajesh K. Gangwar, Vinayak A. Dhumale, Arvind Kumar, Prashant Alegaonkar,

Rishi B. Sharma, Suwarna S. Datar,

IEEE Xplore (2014) 282-285. [Impact factor: 0.031]

47) Processing of graphene nanoribbon based hybrid composite for electromagnetic

shielding

A Joshi, A Bajaj, R Singh, A Anand, PS Alegaonkar, S Datar

Composites Part B: Engineering 69, 472-477 (2014) [Impact factor: 5.414]

46) Exchange Interaction of Itinerant Electron Donors of Tetrakis (Dimethylamino)

Ethylene with Localized Electrons in Graphene

AP Alegaonkar, A Kumar, PS Alegaonkar, SA Waghmode, SK Pardeshi

Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry, 44

4471 (2014) [Impact factor: 0.894]

45) Corrigendum: Graphene nanoribbon–PVA composite as EMI shielding material in the

X band (2013 Nanotechnology 24 455705)

A Joshi, A Bajaj, R Singh, PS Alegaonkar, K Balasubramanian, S Datar

Nanotechnology 25 239501 (2014). [Impact factor: 3.404]

44) Electroless nickel coated nano-clay for electrolytic removal of Hg (II) ions

R Arora, N Singh, K Balasubramanian, P Alegaonkar

RSC Advances 4 (92), 50614-50623 (2014) [Impact factor: 2.936]

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43) Spin Transport and Magnetic Correlation Parameters for Graphene-like Nanocarbon

Sheets Doped with Nitrogen

AP Alegaonkar, A Kumar, SH Patil, KR Patil, SK Pardeshi, PS Alegaonkar

The Journal of Physical Chemistry C 117 27105 (2014) [Impact factor: 4.484]

42) Graphene nanoribbon–PVA composite as EMI shielding material in the X band

A Joshi, A Bajaj, R Singh, PS Alegaonkar, K Balasubramanian, S Datar

Nanotechnology 24, 455705 (2013) [Impact factor: 3.404]

41) Effect of oxidation and carbonization of height of carbon nanotubes synthesized by

water assisted chemical vapor deposition.

S.P. Patole, P.S. Alegaonkar, H. C. Lee, and J. B. Yoo.

Journal of Nanoscience and Nanotechnology, 13 7689 (2013). [Impact factor: 1.354]

40) Graphene-Like-Nanocarbon—Polyaniline Composite as Supercapacitor

A Joshi, A Kumar, PS Alegaonkar, S Datar

Energy and Environment Focus 2 (3), 176-180 (2013) [Impact factor: 2.228]

39) Spin Dynamics in Graphene and Graphene like Nanocarbon Doped with Nitrogen the

ESR Analysis

AP Alegaonkar, A Kumar, SK Pardeshi, PS Alegaonkar

arXiv preprint arXiv:1308.5291 (2013)

38) Mixed phase, sp2–sp3 bonded, and disordered few layer graphene-like nanocarbon:

Synthesis and characterizations

A Kumar, S Patil, A Joshi, V Bhoraskar, S Datar, P Alegaonkar

Applied Surface Science 271, 86-92 (2013) [Impact factor: 4.220]

37) A comparative study of thermionic emission from vertically grown carbon nanotubes

and tungsten cathodes

SK Kolekar, SP Patole, PS Alegaonkar, JB Yoo, CV Dharmadhikari

Applied Surface Science 257 10306 (2011) ).[Impact factor: 4.220]

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36) Estimation of the reduction potential of the carbon nanotube through the fast pyrolysis

at relatively low temperature conditions.

Chemistry of Materials. [Impact factor: 8.930]

35) Field emission parameters and emission uniformity of zinc–nanoparticle included

carbon nanotube–composite.

S.Y. Jun, J.H. Park, J. H. Lee, J.H. Shin, P. S. Alegaonkar, and J. B. Yoo.

Diamond and Related Materials 18 718 (2009). [Impact factor: 2.430]

34) A New Method of Carbon‐Nanotube Patterning Using Reduction Potentials

J.H. Lee, J. H. Shin, S.Y. Jeon, P.S. Alegaonkar, J.B. Yoo.

Advanced Materials 21 1257 (2009). [Impact factor: 21.950]

33) Optimization of water assisted chemical vapor deposition parameters for super growth

of carbon nanotubes

SP Patole, PS Alegaonkar, HC Lee, JB Yoo

Carbon 46 1987 (2008) [Impact factor: 7.082]

32) Alignment and wall control of ultra long carbon nanotubes in water assisted chemical

vapour deposition

SP Patole, PS Alegaonkar, HC Shin, JB Yoo

Journal of Physics D: Applied Physics 41 155311 (2008) ).[Impact factor: 2.373]

31) Electrical ageing of carbon nanotube composite cathode layers

J.H. Park, P.S. Alegaonkar, and J.B. Yoo.

Diamond and Related Materials 17 980 (2008). [Impact factor: 2.430]

30) Ion track-based electronic elements

D. Fink, A. Chandra, W. R. Fahrner, K. Hoppe, H. Winkelmann, A. Saad, P.

Alegaonkar, A. Birdinsky, D. Grasser, R. Lorenz

Vacuum 82 900 (2008) [Impact factor: 2.000]

29) Water-assisted synthesis of carbon nanotubes : Acetylene partial pressure and

height control.

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S.P. Patole, P.S. Alegaonkar, J. H. Lee, and J. B. Yoo.

Euro Physics Letters 81 38002 (2008) [Impact factor: 1.957]

28) Carbon nanotube composite: dispersion routes and field emission parameters.

J.H. Park, P. S. Alegaonkar, S.Y. Jun, and J. B.Yoo.

Composites Science and Technology 68 753 (2008). [Impact factor: 5.590]

27) Improvement of emission reliability of carbon nanotube emitters by electrical

conditioning.

J.H. Park, S.Y. Jeon, P.S. Alegaonkar, J.B. Yoo.

Thin Solid Films 516 3618 (2008). [Impact factor: 1.939]

26) Multi–barrier layer mediated growth of carbon nanotubes.

H.C. Lee, P.S. Alegaonkar, D.Y.Kim, J.H. Lee, T.Y. Lee, S.Y. Jeon, J.B. Yoo.

Thin Solid Films 516 3646 (2008). [Impact factor: 1.939]

25) Selective deposition of catalyst nanoparticles using the gravitational force for carbon

nanotubes interconnect.

D.Y. Kim, , H. C. Lee, J. H. Lee, J. H. Park, P. S. Alegaonkar, J. B. Yoo, I. T. Han, H.

J. Kim, Y. W. Jin, J. M. Kim, K. W. Kwon.

Thin Solid Films, 516 3534 (2008). [Impact factor: 1.939]

24) Growth of carbon nanotubes: effect of Fe diffusion and oxidation.

H.C. Lee, P.S. Alegaonkar, D.Y.Kim, J.H. Lee, T.Y. Lee, S.Y. Jeon, J.B. Yoo.

Philosophical Magazine Letters, 87 767 (2007). [Impact factor: 1.087]

23) Carbon nanoparticles: grown in the subsurface-region of porous SiO2.

P.S. Alegaonkar, H. C. Lee, S. H. Lee, A. F. Moses, D. Fink, and J.B. Yoo.

Journal of Physics–D: Applied Physics, 40 3423 (2007).[Impact factor: 2.373]

22) Growth of carbon nanotubes in etched ion tracks in silicon oxide on silicon.

A.S. Berdinsky, P.S. Alegaonkar, J.B. Yoo, H.C. Lee, J.S. Jung, J.H. Han,

D. Fink, L. T. Chadderton.

NANO, 2 59 (2007). [Impact factor: 0.880]

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21) Fabrication of dye sensitize solar cells using TiO2 coated carbon nanotubes

T.Y. Lee, P.S. Alegaonkar and J.B. Yoo.


20) Mechanical properties of electrospun MWNTs/PVA composite nanofibers

J. S. Jeong, J. S. Moon, S. Y. Jeon, P. S. Alegaonkar and J. B. Yoo.


19) Field emission properties of plasma treated multiwalled carbon nanotube

cathode layers.

J. W. Nam, P.S. Alegaonkar, J.H. Park, J. M. Kim, W. S. Kim, D. H. Choe,

and J.B. Yoo.

Journal of Vacuum Science and Technology–B, 25 306 (2007).

Republished by JVST–B in: Virtual Journal of Nanoscale Science and

Technology, 15–8 (2007). [Impact factor: 0.565]

18) Formation of buried-layer CNTs in Porous SiO2 Templates

S. H. Lee, P.S. Alegaonkar, U.-H Lee, A. S. Berdinsky, J. B. Yoo,

Y. –U. Kwon, C.–Y. Park.

Diamond and Related Materials, 16 326 (2007). [Impact factor: 2.430]

17) Enhanced field emission properties of thin multiwall carbon nanotubes:

role of SiOx coating.

J.S. Moon, P.S. Alegaonkar, J. H. Han, T. Y. Lee, J.M. Kim, and J.B. Yoo.

Journal of Applied Physics, 100 104303 (2006). [Impact factor: 0.565]

16) Nanoclusters and nanotubes for swift ion track technology.

D. Fink, A. Chandra, P. Alegaonkar, A. Berdinsky, A. Petrov, and D. Sinha.

Radiation Effects and Defects in Solids, 162 151 (2006). [Impact factor: 0.130]

15) Dielectric parameters of the elemental diffused polyimide.

R. M. A. Abdul Majeed, A. Datar, S. V. Bhoraskar, P. S. Alegaonkar and

V. N. Bhoraskar.

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Journal of Physics–D: Applied Physics, 39 4855 (2006). [Impact factor: 2.373]

14) Simple fabrication process of a screen–printed triode–CNT field emission

arrays.

Y. J. Jung, J. H. Park, S.–Y. Jeon, P.S. Alegaonkar, A.S. Berdinsky,

J.B. Yoo and C.Y. Park.

Diamond and Related Materials, 11–12 1855 (2006). [Impact factor: 2.430]

13) Fabrication of MWNTs/Nylon conductive composite electrospun nanofibers.

J. S. Jeong, S. Y. Jeon, T. Y. Lee, J. H. Park, P.S. Alegaonkar,

A.S. Berdinsky and J. B. Yoo.

Diamond and Related Materials, 11–12 1839 (2006). [Impact factor: 2.430]

12) Carbon Nanotubes growth in AlPO4-5 Zeolites; Evidence for Density

dependent Field Emission characteristics.

S. H. Lee, P.S. Alegaonkar, J. H. Han, A. S. Berdinsky, Y. U. Kwon,

J. B. Yoo, C. Y. Park.


11) Field enhancement factor for an array of MWNTs in CNT paste.

A.S. Berdinsky, A.V. Shaporin, Ji-Beom Yoo, Jae-Hong Park,

P.S. Alegaonkar, Jae-Hee Han.

Applied Physics–A, 83 377 (2006). [Impact factor: 1.604]

10) The growth of carbon nanotubes at the channel ends of the SAPO4-5

zeolite structures.

S.H. Lee, T.Y. Lee, J.H. Han, P.S. Alegaonkar, D.G. Kuvshinov,

A.S. Berdinsky, J.B. Yoo, C.Y. Park.


9) High energy ion beam irradiation of polymers for electronic Applications.

D. Fink, P.S. Alegaonkar, A. V. Petrov, M. Wilhelm, P. Szimkowiak,

M. Behar, D. Sinha, W.R. Fahrner, K. Hoppe, L. T. Chadderton.

Nuclar Instrumentation and Methods–B, 236 11 (2005). [Impact factor: 1.323]

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(cited as #11 of the Top 25 Articles in NIM B by Science Direct 2005;

web: http://top25.sciencedirect.com/? journal_id=0168583X)

8)* Effect of MeV electron irradiation on free volume the free volume of

polyimide.

P.S. Aleagonkar and V.N.Bhoraskar.

Radiation Effects and Defect in Solids, 8–9 511 (2004). [Impact factor: 0.565]

7)* Characterization of polyimide irradiated in silver solution under a pulsed

electron-beam.

P.S. Alegaonkar and V.N.Bhoraskar.

Nuclear Instrumentation and Methods–B, 225 267 (2004). [Impact factor: 1.323]

6) Surface interactions of polyimide with ECR oxygen plasma.

M. Naddaf, C. Balasubrayamanyam, P.S. Alegaonkar, V.N.Bhoraskar,

A.B. Mandle and S.V.Bhoraskar.

Nuclear Instrumentation and Methods–B 222 135 (2004). [Impact factor: 1.323]

5)* 6Li+ ion implantation into polystyrene.

M.R.F. Soares, P.S.Alegaonkar, M.Behar, D.Fink, M.Muller.

Nuclear Instruments and Methods–B 218 300 (2004). [Impact factor: 1.323]

4)* Production Parameters for the formation of Conducting Nanotubles in

etched tracks.

D.Fink, P.S.Alegaonkar, A.Petrov, A.S.Berdinsky.

Radiation Measurements, 36 605 (2003). [Impact factor: 1.369]

3)* The emergence of new ion track applications.

D.Fink, P.S.Alegaonkar, A.V. Petrov, A.S.Berdinsky.

Radiation Measurements 36 751 (2003). [Impact factor: 1.369]

2)* Refractive index and dielectric constant of boron and fluorine diffused

polyimide.

P.S.Alegaonkar, A.B.Mandale, S.R.Sanikar and V.N.Bhoraskar.

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Nuclear Instruments and Methods–B 194 281 (2002). [Impact factor: 1.323]

1) Dielectric properties of 1MeV electron irradiated polyimide.

P.S. Alegaonkar, P.Balaya, P.S.Goyal and V.N.Bhoraskar.

Applied Physics Letters, 80 640 (2002). [Impact factor: 3.495]

C) Conference proceedings:

50) Graphenelike nano-carbon based optical limiter for backscatter suppression in pulsed

laser systems.

S. N. Sudheendra, Arvind Kumar, P. S. Alegaonkar and V. N. Bhoraskar,

Proceedings of Ist National Conference on Trends and Applications in Laser

Technology and Optoelectronics (TALTO-1) (2013) 82-86.

49) Enhancement of mechanical properties of GNCs/epoxy nanocomposite

Arvind Kumar and P. S. Alegaonkar

6th Banglore Nano 2013, Banglore (4-6 Dec 2013).

48) Graphene-like nano-carbon based optical limiter for backscatter suppression in pulsed

laser systems

S. N. Sudheendra, Arvind Kumar, P. S. Alegaonkar and V. N. Bhoraskar

TELTO-1, Amity University, Gurgaon (4 April 2013)

47) Mechanical properties of epoxy/graphene-like nanocarbon sheets (GNCs)

nanocomposites

Arvind Kumar and Prashant Alegaonkar

NTAFM 2013, CSIR-NCL Pune (24 - 25 July 2013).

46) Electrical conductivity measurement of donor–doped disordered graphene in liquid

medium

Ashwini Alegaonkar, Arvind Kumar, Atul Kulkarni, Sathish Pardeshi,

and Prashant Alegaonkar,

These papers have evolved from my doctoral thesis.

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International workshop on nanotechnology and advanced functional materials

(NTAFM 2013), NCL Pune. (24-25 July, 2013).

45) Mechanical properties of epoxy / graphene-like nanocarbon sheets

(GNCs) nanocomposites

Arvind Kumar, Prashant Alegaonkar

International workshop on nanotechnology and advanced functional materials

(NTAFM 2013), NCL Pune. (24-25 July, 2013).

44) Enhanced pauli-spin susceptibility in graphene-like nanocarbon sheets

Arvind Kumar, Rajesh K. Gangwar, Suwarna Datar,

Ashutosh Abhyankar and P. S. Alegaonkar

5th Banglore Nano 2012, Banglore (5-7 Dec 2012).

43) Characterizations on tetrakis (dimethylamino) ethylene-treated-graphene

A. P. Alegaomkar, Arvind Kumar, P. S. Alegaonkar, S. A. Waghmode

and S. K. Pardeshi,

Molecules and macromolecules (MAM-12), Tamil Nadu (21-25 November 2012).

42) Investigations of disordered graphene using field emission and scanning tunneling

microscopy / spectroscopy

Sumati Patil, Sadhu Kolekar, Arvind Kumar, Prashant Alegaonkar, Suwarna Datar, C.

V. Dharmadhikari

International conference on nanoscience + technology (ICN+T2012) Paris (23-27 July

2012).

41) Electrochemical glucose sensor based on gold-CNT nanocomposite

Rajesh K. Gangwar, Vinayak A. Dhumale, Arvind Kumar, Prashant Alegaonkar,

R. B. Sharma and S. S. Datar

International conference on functional materials for Defence (ICFMD-2012),

DIAT Pune. (18-20 May 2012).

40) Gold-Graphene Nanocomposite based Ultrasensitive Electrochemical Glucose Sensor

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Rajesh K. Gangwar, V. A Dhumale, Arvind Kumar, P. Alegaonkar, R. B Sharma and

S. S Datar

International symposium on physics and technology of sensors (ISPTS-2012), CMET

Pune. (8-10 March 2012).

39) Disordered Graphene Based Fiber Optic Bio Sensor, ICTP Italy (2012).

Arvind Kumar, Anupama Joshi, Rajesh Kumar Gangwar, Suwarna Datar and

Prashant Alegaonkar,

38) Synthesis and characterization of Graphene for PVA-Graphene Composite

Arvind Kumar, Anupama Joshi, Suwarna Datar and Prashant Alegaonkar,

Seminar on Synthesis and applications of functional materials, NDA Pune,

(23 September 2011).

37) Synthesis of graphene from coke

Arvind Kumar, Sumati Patil, Suwarna Datar, and Prashant Alegaonkar,

International symposium on materials education (ISME 2011),

University of Pune (2011).

36) Synthesis of few layer graphene composite

Arvind Kumar and P. S. Alegaonkar,

National seminar on nanomaterials for device: characterization and applications,

University of Pune and DIAT (24-26 June, 2010).

35) Gold-graphene nanocomposite based ultrasensitive electrochemical glucose sensor

RK Gangwar, VA Dhumale, A Kumar, P Alegaonkar, RB Sharma

Physics and Technology of Sensors (ISPTS), 2012 1st International Symposium

(2012).

34) A comparative study of thermionic emission from vertically grown carbon nanotubes

and tungsten surfaces

SK Kolekar, SP Patole, PS Alegaonkar, JB Yoo, CV Dharmadhikari

Abstracts of the 18th International of Vacuum Congress

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33) Graphene composite using easy soluble expanded graphite: Synthesis and emission

parameters

JH Lee, H Park, SM Yoo, VG Makotchenko, AS Nazarov, VE Fedorov, ...

Vacuum Nanoelectronics Conference, 2009. IVNC 2009. 22nd International, 19-20,

2009

32) Carbon nanotube based transparent electrodes for flexible displays using liquid crystal

devices.

J. H. Shin, H. C. Lee, J. H. Lee, S. M. Park, P. S. Alegaonkar, and

J. B. Yoo.

Proceedings of International Meeting on Information Display–07, 27–31 Aug. 07 at

Daegu, South Korea, pp. 1–191.

31) Dispersion of carbon nanotube in polymer composite and their field emission

superiority.

J. H. Park, S. Y. Jeon , P. S. Alegaonkar, and J. B. Yoo.



30) Field emission properties of expanded graphite composite.

P. S. Alegaonkar, J. H. Park, S. Y. Jeon, J. H. Shin, A. S. Berdinsky, and J. B. Yoo.



29) Improvement field emission uniformity in carbon nanotube composite using zinc

nano-fillers.

S. Y. Jeon, J. H. Park, J. H. Lee, J. H. Shin, S.M. Park, P. S. Alegaonkar,

and J. B. Yoo.



28) Field emission characteristics of carbon nanocomposites.

J. H. Park, S. Y. Jeon, P. S. Alegaonkar, J. B. Yoo.

Proceedings of Field Emission Workshop–07, 09–11 Aug. 07

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at Gwanju, South Korea, pp. 209.

27) Electron emission reliability of carbon nanotube paste and the diode

emission characteristics for a microwave power amplifier.

J. H. Han, J. H. Park, A. S. Berdinsky, P.S. Alegaonkar, J. B. Yoo, H. J. Kim,

J.J. Choi, J. W. Nam, C.K. Lee.

Electronic Materials Letters, 2 pp. 101–105 (2006).

26) Multi-barrier-layer mediated growth of carbon nanotubes.

H. C. Lee, P.S. Alegaonkar and J.B. Yoo.

Proceedings of International Symposium on Dry Process, 07–50 pp. 151–152 (2006).

25) Fabrication of porous Al2O3 and TiO2 thin film hybrid composite using atomic layer

deposition and properties study.

S. J. Park, B. K. Ahn, P.S. Alegaonkar, H. J. Shin, J. B. Yoo.

Proceedings of International Union of Materials Research Society, at Jeju, South

Korea, Published in Solid State Phenomenon, 124–126, pp 1126–1128 (2007).

24) Fabrication of carbon nanotube embedded nylon nanofiber bundles by

electrospinning.

J. S. Jeong, S. J. Park, Y.H. Shin, Y. J. Jung, P.S. Alegaonkar, J. B. Yoo.


Korea, Published in Solid State Phenomenon, 124–126, pp 1273–1276 (2007).

23) Improvement of emission reliability of screen printed carbon nanotube emitters by

electrical conditioning.

J. H. Park, S. Y. Jeon, S.Y., P. S. Alegaonkar, J. B. Yoo.


Korea, pp. 74 (10-14 September 2006).

22) Fabrication of carbon nanotube embedded Nylon nanofiber bundles by

Electrospinning (abstract–only).

J.S. Jeong, S.J. Park, P.S. Alegaonkar, A.S. Berdinsky, J.B. Yoo.

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Korea, pp. 145 (10-14 September 2006).

21) Variation of field emission characteristics of CNT-arrays by pretreatment

of ITO electrode (abstract–only).

Y.J. Jung, J.H. Park, S.Y. Jeon, S.J. Park, P.S. Alegaonkar, A.S. Berdinsky,

and J.B. Yoo.


Korea, pp. 72 (10–14 September 2006).

20) Field emission properties of chemically shortened carbon nanotube emitters

(abstract–only).

J.H. Park, S.Y. Jeon, Y.J. Jung, P.S. Alegaonkar, A.S. Berdinsky, J.B. Yoo,


Korea, pp. 71 (10–14 September 2006).

19) Simple fabrication process and characteristic of a screen-printed triode-CNT

field emission arrays for the flat lamp application.

Y. J. Jung, J. H. Park, S. Y. Jeon, S. J. Park, P. S. Alegaonkar, J. B.Yoo.

Proceedings of International Meeting on Information Display, at Daegu, South Korea,

pp. 1214–1218 (22–25 August 2006).

18) Fabrication of Nylon/MWNTs conductive composite nanofibers by

electrospinning (abstract–only).

J.S. Jeong, S.Y. Jeon, T.Y. Lee, J.H. Park, Y.H. Shin, P.S. Alegaonkar,

J.B. Yoo.

Proceedings of 3rd Korea-China workshop on nanotubes and nanowires, in Seoul,

South Korea, 3 pp. 98 (17–20 May 2006).

17) Simple fabrication process of a screen printed triode–CNT field emitter

array (abstract–only).

Y.J. Jung, J.H. Park, S. Y. Jeon, P.S. Alegaonkar, J.B. Yoo, C.Y. Park.

Proceedings of 3rd Korea-China workshop on nanotubes and nanowires, in Seoul,

South Korea, 3 pp. 96 (17–20 May 2006).

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16) Improvement of emission reliability of screen printed carbon nanotube

emitters by electrical conditioning (abstract–only).

J.H. Park, Y.J. Jung, S.Y. Jeon, P.S. Alegaonkar, A.S. Berdinsky,

J.B. Yoo, C.Y. Park.

Proceedings of the 10th International Conference on New Diamond Science and

Technology at North Carolina U.S.A., 10 pp. 57 (15–18 May 2006).

15) Characteristics of a screen-printed triode-CNT field emission arrays for

the flat lamp application (abstract–only).

Y.J. Jung, J.H. Park, S.J. Park, J.W. Nam, P.S. Alegaonkar, A.S. Berdinsky,

J.B. Yoo, C.Y. Park.

Proceedings of the 10th International Conference on New Diamond Science &

Technology at N. Carolina U.S.A., 10 pp. 57 (15–18 May 2006).

14) Improvement in emission uniformity and rheology of carbon nanotube

Paste (abstract–only).

J.W. Nam, S.H. Cho, Y.C. Choi, J.S. Ha, J.H. Park, D.H. Choe, J.H. Park,

Y.J. Jung, P.S. Alegaonkar, A.S. Berdinsky, J.B. Yoo.



13) Enhanced efficiency of dye sensitized solar cells by using carbon nanotubes

(abstract–only).

T.Y. Lee, P.S. Alegaonkar, A.S. Berdinsky, J.B. Yoo.

Proceedings of the 10th International Conference on New Diamond Science &

Technology at N. Carolina U.S.A., 10 pp. 56 (15–18 May 2006).

12) Fabrication of Nylon/MWNTs conductive composite nanofibers by

Electrospinning (abstract–only).

J.S. Jeong, S.Y. Jeon, T. Y. Lee, J.H. Park, A.S. Berdinsky,

P.S. Alegaonkar, J.B. Yoo.



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11) Investigation of carbon nanostructures in porous SiO2 subsurface- layers (abstract–

only).

P.S. Alegaonkar, S.H. Lee, T.Y. Lee, J.H. Han, A.S. Berdinsky, J.B. Yoo.



10) Fabrication of dye sensitized solar cells by using TiO2 coated CNTs

(abstract–only).

T. Y. Lee, P.S. Alegaonkar and J. B. Yoo.

Proceedings of International Symposium on Dry Process, 14–04 pp. 419–420 (2005).

9) Micro-transformer and micro-capacitors based on ion tracks

A.V. Petrov, D.Fink, W.R.Fahrner, P. Alegaonkar, A.S. Berdinsky,

C. E. Dimnov, A.K. Fedtov.

Proceedings of International Conference on Actual Problems in Solid State Physics 12

46 (2005).

8) Novel electronic devices for nanotechnology based on materials with

ion tracks.

A.V. Petrov, S.E. Demyanov, D. Fink, W.R. Fahrner, A.K. Fedotov,

P.S. Alegaonkar, A.S. Berdinsky.

Physics, chemistry and applications of the nanostructures, Materials of the

Nanomeeting, 1 544–547 (2005).

7) Radiation–assisted–diffusion of silver in polyimide.

P.S. Alegaonkar, V.S. Raju, S. Sanjeev Kumar and V.N. Bhoraskar.

Proceddings of International Symposium on Advanced Materials and Processing, at

Indian Institute of Technology –Kharagpur, 1398–1403 (6–8 December 2004).

6) Variation of conductivity of fullerite structures under different types of

pressure.

A.S. Berdinsky, D. Fink, Hui-Gon Chun, Yong-Zoo Yoo, Ji- Beom Yoo, A.V. Petrov,

and P.S. Alegaonkar.

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Journal of the Korean Sensor Society, 13 392–398 (2004).

5) Valence Band spectra of silver diffused polyimide.

P.S. Alegaonkar, S. M. Chaudhary and V.N. Bhoraskar.

47th Department of Atomic Energy Symposium, at Bhabha Atomic Research Center,

Mumbai, India, 413–416 (5–7 December 2003).

4) Creation of nanoscale electronic devices by the swift heavy ion technology.

A.V. Petrov, D.Fink, G. Richter, P. Szimkowiak, A. Chemseddine,

P.S. Alegaonkar, A.S. Berdinsky, L.T. Chadderton, W.R. Fahrner.

4th Siberian Russian Workshop and Tutorials on Electron

Devices and Materials at Erlagol, Russland, 40–45 (1–5 July 2003).

3) Pressure dependence of conductivity of fullerite structures.

A. S. Berdinsky, D. Fink, A. V. Petrov, H. G. Chun, H.G., L. T. Chadderton, V. A.

Gridchin, P. S. Alegaonkar.

7th Korea–Russia International Symposium on Science and Technology at University

of Ulsan, South Korea, Machine Parts and Materials Processing, Vol. 1, 141–146

(June 27–July 6 2003).

2) Thermal behavior of etched tracks and embedded metallic nanotubules.

D. Fink, P. S. Alegaonkar, A.V. Petrov, J. Cervena, V. Hnatowicz, J. Vacík, P.

Szimkowiak, I. Sieber, M. Wilhelm, A.S. Berdinsky, H.G. Chun,

L.T. Chadderton.

7th Korea–Russia International Symposium on Science and Technology at University

of Ulsan, South Korea, Machine Parts and Materials Processing, Vol.1, 135–140

(June 27–July 6 2003).

1) Model of conductivity of fullerite tubules in ion tracks of polymer foils.

A. S. Berdinsky, P. S. Alegaonkar, D.Fink, H.G.Chun, L.T.Chadderton,

V.A. Gridchin.

7th Korea–Russia International Symposium on Science and Technology, at

University of Ulsan, South Korea, Machine Parts and Materials Processing, Vol. 1,

63–69 (June 27–July 6 2003).

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D) Patent: (German patent)

Elektronische Nanobauelemente auf der Basis einer einzelnen

Ionenspur.

D.Fink, P.S. Alegaonkar, A.V. Petrov.

Nr. 203 20 566.9 (25–11–2004), IPC B82B 1/00, Gebrauchsmusters.

Documents

BIO - diat.ac.in · BIO 2-36 24-Feb-19 8. Research Experience: 15 years of research experience in the fields of synthesis of carbon nano-structures and their application engineering