1. Name : Dr. Swapan.Kumar Pradhan

2. Present Address : Dr. S.K. Pradhan, Professor, Dept. of Physics, The University of Burdwan, Golapbag, Burdwan-713104, West Bengal, INDIA.

E-mail: skp_bu@yahoo.com, Fax: +91 342 2657800 Ph. +91 342 2657800 (O), +91 342 2657282 (R)

3. Nationality : Indian 4. Date of birth : 8th January, 1959. 5. Marital status : Married 6. Sex: Male

7. Educational Qualifications :

B.Sc.(Physics, Hons) Calcutta Univ. (1980) M.Sc.(Physics) Calcutta Univ. (1983) Ph.D.(Physics) Jadavpur Univ. (1990)

Details of Research and Teaching Experience : Ph.D. Thesis: (April'84 - April'90) Dept. of Materials Science, Indian Association for

the Cultivation of Science, Calcutta. India

Title of the Thesis: X-RAY DIFFRACTION STUDIES OF METALS AND ALLOYS

Research Associate: May'90 - Dec'93 & July'94-July'95, Dept. of Materials Science,

Indian Association for the Cultivation of Sc., Calcutta, India

Visiting Professor: (Jan'94 - June'94) Dept. of Materials Engg. of the University of Trento, Italy.

Senior Research Associate (CSIR): (July'95 - March’96) Dept. of Materials Science, Indian Association for the Cultivation of Sc., Calcutta, India

Reader: (March’96 – March ’04). Dept. of Physics, The University of Burdwan, Burdwan-713104, India

Visiting Professor: (May'04 - July'04) Dept. of Physics, Central Michigan University,

USA

Professor: (March’04 – onwards) Dept. of Physics, The University of Burdwan,

Burdwan-713104, India

Visiting Professor: (Sep'06 - Aug'07) Dept. of Physics, Central Michigan University, USA

Research Achievements of

Prof. S. K. Pradhan

1. 1st time preparation and microstructure characterization of nanocrystalline cubic

ZrO2 by mechanical allying the monoclinic ZrO2 without any additive. Article published in J. Appl. Crystallography, 35, 517 (2002).

2. 1st time preparation and microstructure characterization of nano-Zircon (artificial

diamond) powder by mechanical alloying the monoclinic ZrO2 and amorphous SiO2

precursors: Article published in J. Appl. Cryst. 38, 951 (2005).

3. 1st time preparation and microstructure characterization of nanocrystalline

chalcopyrites by mechanical alloying the stoichiometric elemental ingredients:

Articles published in Physica E, 33, 144 (2006); Physica E, 33, 66 (2006)

4. 1st time preparation and microstructure characterization of nanocrystalline binary and ternary ferrites by top-down method of mechanical alloying the stoichiometric elemental precursor powders.

Articles published in: J. Alloys and Compounds, (2009), doi:10.1016/j.jallcom.2009.09.019; Jpn. J. Appl. Phys., 47, 8667 (2008); Physica E,

39, 175 (2007); J. Appl. Cryst. 38, 772 (2005). 5. 1st time preparation and microstructure characterization of ZnS quantum dots by top-

down method of mechanical alloying the stoichiometric elemental precursor powders in a record minimum time.

Article published J. Appl. Phys, 106, (2009), 034313. 6. 1st time preparation and microstructure characterization of CdS quantum dots in a

record minimum time by mechanical alloying the stoichiometric elemental precursor powders.

Article in press, J. Nanosc. Nanotechnol (2010). 7. Structures of TiO2 nanoparticles, nanotubes and nanowires have been obtained by

Pair Distribution Function (PDF) using synchrotron radiation. Article published in Chem. Mater in 2007. Chem. Mater. 19, (2007), 6180.

8. Preparation of nano-carbides at room temperature by mechanical alloying graphite

and elemental metal powders. Articles published in J. Alloys and Compounds, 493,

(2010), 666; J. Alloys and Compounds, 486, (2009), 480; J. Alloys and Compounds, 477, (2009), 127

9. X-ray microstructure characterization of ball-milled nanocrystalline microwave

dielectric CaZrO3 by Rietveld method

Article published in J. Appl. Cryst. 38, 291 (2005).

10. Preparation of nano-nitride at room temperature by mechanical alloying elemental metal powder under nitrogen atmosphere.

Articles published in J. Alloys and Compounds, 493, (2010), 192.

11. 1st time preparation and microstructure characterization of Cd0.5Zn0.5S quantum dots by mechanical alloying in a record minimum time of 30min.

Article at press J. Phys. D.:Appl. Phys.

Teaching Experience:

(Six months) P.G. Students of Materials Sc. and Engineering as a Visiting Professor in the Dept. of Materials Engineering, University of Trento, Italy.

(17 years) P.G. Students of Dept. of Physics, The University of Burdwan, India as a

Reader and Professor of the Dept. Major Subject of Teaching: Solid State Physics, Condensed Matter Physics with special emphasis on X-rays & Crystallography and Materials Science.

(About two years) P.G. Students of Dept. of Bio-Technology, The University of

Burdwan, India as a Reader and Professor of the Dept. Major Subject of Teaching: X-rays & Crystallography with special emphasis on molecular spectroscopy.

Research Activities

Fields of Specialization: (i) Synthesis of nanocrystalline materials by mechanical alloying including metals, alloys,

metal oxides, metal carbides, metal nitrides, metal sulfides, quantum dots, ferrites, chalcopyrites, composites, hydroxyapatite etc.

(ii) Preparation of metallic alloys and composites by vacuum melting and chemical routes.

(iii) Structure and microstructure characterization and phase transformation kinetic

studies of nanocrystalline materials employing X-ray diffraction using the Rietveld structure and microstructure refinement method and high resolution transmission electron microscopy.

(iv) In situ high- temperature phase transition and microstructure characterization of

polycrystalline/nanocrystalline materials (v) Measurement of mechanical (microhardness), electrical (AC/DC conductivity) and

magnetic (susceptibility, Mossbauer spectroscopy) and optical properties to establish structure – property correlations.

(vi) Structure of nanocrystalline materials including quantum dots, nanowires, nanotubes by pair distribution function using Synchrotron radiation data.

Research Projects:

UGC Major Research Project (2012) : 8.00 lacs

NRCM research project in collaboration with IISc Bangalore

Research Guidance (for Ph. D.):

Name of the Research

Scholar

Topics of Research Current Status

Dr. P. Bose

Preparation and characterization of

polycrystalline composite materials.

Ph.D. degree

awarded (2003)

Dr. Hema Dutta

Preparation and microstructure

characterization of some industrial polycrystalline materials

Ph.D. degree

awarded (2004)

Dr. Srinjoy Bid

Microstructure characterization of some

nanocrystalline materials prepared by high energy ball milling and chemical route

Ph.D. degree

awarded (2004)

Dr. Sanat Kumar

Manik

Microstructure characterization of some

nanocrystalline ceramic microwave dielectrics prepared by high energy ball milling.

Ph.D. degree

awarded (2006)

Dr. Swapan Kumar

Shee

Characterization of microstructure of some

industrial materials by X-ray diffraction and other methods.

Ph.D. degree

awarded (2007)

Dr. Monika Sinha Preparation and microstructure

characterization of some nanocrystalline ferrites

Ph.D. degree

awarded (2010)

Mrs. Banashree Ghosh Preparation and microstructure characterization of some nanocrystalline

chalcopyrites and metal carbides

Ph.D. degree awarded

2012

Mr. Abhijit Banerjee Characterization of lattice imperfections in nanocrystalline materials by positron

annihilation, x-ray diffraction and other methods.

Thesis submitted in. 2012

Mr. Ujjwal Kumar

Bhaskar

Preparation and microstructure

characterization of some metal nitrides

Thesis submitted in

2013

Mr. Soumitra Patra Preparation and Characterization of Quantum

dots

Thesis to be

submitted by 2013

Ms. Amrita Sen Phase stability and microstrucure characterization of nanomaterials at elevated

temperatures by x-ray powder diffraction

Thesis to be submitted by 2013

Mr. Sumanta Sain Microstructure characterization of quantum dots prepared by ball milling and chemical routes

Thesis to be submitted by 2013

Mr. Sourav Saha Electrical characterization of nanocrystalline materials synthesized by mechanical alloying

Mr. Sushovan Lala Synthesis and characterization of undoped and doped hydroxyapatite

Mr. Anshuman Nandy Synthesis and characterization of some rare-earth perovskite nano-crystals

Mr. Sourav Banerjee Mechanosynthesis and microstructure

characterization of nanocrystalline metal carbides and metal-ceramic composites

Research Guidance (for M. Phil.):

Name of the M. Phil.

Student

Topics of Research Current Status

Joyasree Bhattacharjee Preparation and characterization of some industrial nanocrystalline materials

M. Phill. Degree awarded (2010)

Participation in conferences/ Seminars/ Workshop: (2002 onwards)

1. International School on Powder Diffraction (ISPD II), IACS, Jadavpur, Kolkata,

January 20-23, 2002. 2. MRSI-14th AGM Meeting (national conference), BARC, Mumbai, February 11-

13, 2003. 3. National Seminar On Science & Technology Of Nanomaterials, CGCRI, Kolkata,

March 6-7, 2003

4. National Seminar on Crystallography, NCL, Pune, January, 8-10, 2004. 5. Denver X-ray Conference, Colorado, USA, 30th July- 3rd Aug, 2007.

6. Invited Speaker : In the III School on X-ray Diffraction from Polycrystalline materials : Microstructural Characterisation of Materials by XRD : 16-18 Feb.'94; University of Trento, ITALY.

7. Invited speaker, AICTE sponsored winter school on Synthesis and febrication of nanoceramics and components and their industrial applications, January, 16-27,

2006. IIT, Kharagpur. 8. Invited speaker, AICTE sponsored winter school on Chemical Synthesis of

Ferroic ceramics, November, 05-16, 2007. IIT, Kharagpur.

9. Invited speaker, National Seminar on Crystallography, Jadavpur University, Feb, 6-8, 2008.

10. Invited speaker, National Workshop on Radiation Science and applications, 10-12 September, 2008.

11. Invited speaker, MHRD/AICTE sponsored winter school on nanoparticles—science and technology, NIT Durgapur,January, 2-15, 2009.

12. Invited speaker, Winter School on X-ray Diffraction, IISc, Bangalore, Dec. 2011

Administrative activities

1. Convener, 1St National work shop on Laser and Nanomaterials, January 25-27,

(2005), Dept. of Physics, Burdwan University. 2. Convener, 2nd National work shop on Laser and Nano Materials, January 25-27,

(2006), Dept. of Physics, Burdwan University. 3. Convener, Fourth National work shop on Laser and Nano Materials, March 7-9,

(2008), Dept. of Physics, Burdwan University

4. Convener, International Conference on Radiation Physics and its applications, January, 16,17 (2010), Dept. of Physics, Burdwan University

5. Coordinator, UGC sponsored 10th Refreshers’ course on ―Recent developments in Physics and Applied Physics‖ Feb. 2009, conducted by Academic Staff College, Burdwan University

6. Coordinator, UGC sponsored 11th Refreshers’ course on ―Recent advances in Physics‖ 07-27th January, 2010

7. Coordinator, UGC sponsored DSA-III program (Under SAP), Departmental project.

8. Head of the Department of Physics, 21.9.08-20.9.2010

9. Centre-in-charge, JEST-2010, held on 21.2.10 in the Dept. of Physics, Burdwan University.

10. Coordinator, UGC Centre for Advanced Study, 2011- 11. Conveners, 1st and 2nd National Seminars on recent trend in condensed matter

Physics including laser application‖, March, 6-7 and 21-22, 2012

12. Convener, Third national Seminars on recent trend in condensed matter Physics including laser application‖, March, 5-7, 2013

List of Publications and Citations

h-index (Scopus): 19. Total Citation : 1131

h-index (google) : 20 Total Citation : 1289 I.F.= Impact Factor

Book and Book Chapters

95. ―Microstructure characterization of some polycrystalline materials‖ H. Dutta and S. K. Pradhan

LAP LAMBERT Academic publishing GmbH & Co. KG, Germany (2010)

105. ―Microstructure characterization and phase transformation kinetic study of ball milled m-ZrO2-x-mol% a-TiO2 mixture by Rietveld method‖ book chapter in

―Milling: Operations, Applications and Industrial effects‖ Editor: L. A. Filipovic, Nova Publishers, USA, (2011) (ISBN: 978-1-62100-012-9) S.K. Pradhan and H. Dutta

In peer-reviewed international Journals

118. ―Structural and microstructural characterizations of nanocrystalline hydroxyapatite

synthesized by mechanical alloying‖ S. Lala, B. Satpati, T. Kar and S.K. Pradhan Mat. Sc. & Engg. C (accepted) (2013)

I.F.=2.686

117. ―Microstructure and optical characterizations of mechanosynthesized nanocrystalline Ti0.9Si0.1N‖ U K Bhaskar, B Satpati, S K Pradhan

Powder Technology (in press) (2013) I.F.= 2.080

116. ―One step quickest mechanosynthesis of nanocrystalline Ti0.9Si0.1C and its microstructure characterization‖

A. Sen, T. Kar, S.K. Pradhan

J. Alloys and Compd. 557, 47-52 (2013)

I.F.= 2.289

115. ―Diverse Role of Silicon Carbide in the Domain of Nanomaterials‖

T. Sahu, B. Ghosh, S. K. Pradhan, and T. Ganguly International J. Electrochemistry, Vol. 2012 (2012), Article ID 271285, 7 pages

Open access

114. ―Microstructural Changes and Effect of Variation of Lattice Strain on Positron Annihilation Lifetime Parameters of Zinc Ferrite Nanocomposites Prepared by High

Enegy Ball-milling‖

Abhijit Banerjee, Srinjoy Bid, Hema Dutta, Sandeep Chaudhuri, Dipankar Das, Swapan

Kumar Pradhan

Materials Research, 15, 1-8(2012) I.F =0.42

113. ―One-step mechanosynthesis of nano structured Ti(CxN1-x) cermets at room temperature and their microstructure characterization‖

Ujjwal Kumar Bhaskar and S.K. Pradhan Mat. Chem and Physics, 134, 1088-1096(2012)

I.F.=2.234 112. "Quickest ever single-step mechanosynthesis of Cd0.5Zn0.5S quantum dots:

nanostructure and optical characterizations" S. Sain, S. Patra and S. K. Pradhan

Materials Research Bulletin, 47, 1062-72 (2012) I.F.=2.105

111. ―Microstructural, magnetic and optical characterizations of nanocrystalline Zn1-xMnxO dilute magnetic semiconductors synthesized by mechanical alloying‖

S. Sain, J. Bhattacharyya, M. Mukherjee, D. Das and S.K. Pradhan

J. Alloys and Compounds, 519, 112-122 (2012) I.F.=2.289

110. ― Mechanosynthesis of nanocrystalline Ti0.9C0.1N at room temperature and its

microstructural aspects‖ U. K. Bhaskar and S. K. Pradhan Mat. Sc. & Engg. A., 534, 400-407 (2012)

I.F.=2.003

109. ―Microstructure, Optical and quantum confinement effect study of mechanically synthesized ZnTe quantum dots‖ S. Patra and S. K. Pradhan

Acta Materialia, 60, 131-138 (2012) I.F.=3.755

108. ―Preparation of nano dimensional CdS by chemical dipping technique and their characterization‖

S. Patra, P. Mitra and S.K. Pradhan Materials Research, 14, 17-20 (2011)

I.F.=0.42

107. ―Microstructure characterization of nanocrystalline magnesium ferrite annealed a t

elevated temperatures by Rietveld method‖ S. K. Pradhan, S. Sain and H. Dutta

ISRN Ceramics, Volume 2011 (2011), Article ID 194575, 8 pages doi:10.5402/2011/194575 Open access

106. ―Microstructure, Mossbauer and Optical characterizations of nanocrystalline α-

Fe2O3 synthesized by chemical route‖ A. Banerjee, S. Patra, M. Chakrabarti, D. Sanyal, M. Pal and S. K. Pradhan

ISRN Ceramics, vol. 2011(2011), Article ID 406094, 8 pages (Open access)

105. ―Microstructure characterization and phase transformation kinetic study of ball milled m-ZrO2-x-mol% a-TiO2 mixture by Rietveld method‖ book chapter in

―Milling: Operations, Applications and Industrial effects‖ Editor: L. A. Filipovic, Nova Publishers, USA, (2011) (ISBN: 978-1-62100-012-9) S.K. Pradhan and H. Dutta

104. ―Dielectric relaxation and magnetic field dependent alternating current conductivity

of nanocrystalline cadmium–zinc ferrite below room temperature‖ S. Ghatak, G. Chakraborty, M. Sinha, S.K. Pradhan, A.K. Meikap Physica B, 406 3261–3266 (2011)

I.F.=1.063

103. ―Anomalous electrical transport properties of non-stoichiometric Ni-fettire below room temperature‖ S. Ghatak, M. Sinha, A.K. Meikap, S.K. Pradhan

Materials Research Bulletin, 46, 1055-64 (2011) I.F.=2.105

102.―Direct and alternate current conductivity and magnetoconductivity of nanocrystalline Cd-Zn-ferrite below room temperature‖

S. Ghatak, G. Chakraborty, M. Sinha, S.K. Pradhan, A.K. Meikap Materials Sc. and Appln. 2, 226-236 (2011)

Open access 101. ―Quickest single-step one pot mechanosynthesis and characterization of ZnTe

Quantum Dots‖ S. Patra and S. K. Pradhan

J. Alloys and Compounds 509, 5567-70 (2011) I.F.=2.289

100. ―Mechanochemical solid state synthesis of (Cd0.8Zn0.2)S quantum dots: microstructure and optical characterizations‖

S.Sain and S.K. Pradhan

J. Alloys and Compounds 509, 4176-84 (2011) I.F.=2.289

99. ―Microstructure evaluation of nanostructured Ti0.9Al0.1N prepared by reactive ball

milling‖ U. K. Bhaskar, S. Bid and S. K. Pradhan J. Alloys. & Compounds 509, 620-626 (2011)

I.F.=2.289

98. ―Quickest single-step mechanosynthesis of CdS quantum dots and their microstructure characterization.‖

S. Patra, B. Satpati, S. K. Pradhan J. Nanosc. and Nanotechonol. 11, 4771-80 (2011)

I.F.=1.560

97. ―Microstructure and optical band-gap of mechanosynthesized CdxZn1-xS quantum dots‖ S. Sain, S. Patra and S.K.Pradhan

J. Phys D: Appl. Phys., 44, 075101 (8pp) (2011) I.F.=2.544

96. ―One step fastest method of nanocrystalline CuAlS2 chalcopyrite synthesis, and its nanostructure characterization‖

B. Ghosh and S.K. Pradhan

J. Nanopart. Research , 13, 2343-50 (2011)

I.F.=3.287 95. ―Microstructure characterization of some polycrystalline materials‖

H. Dutta and S. K. Pradhan

LAP LAMBERT Academic publishing GmbH & Co. KG, (2010)

94. ―Electrical Conductivity, Magneto conductivity and Dielectric Behaviour of (Mg,Ni)-Ferrite below Room Temperature‖

S. Ghatak, A. K. Meikap, M. Sinha, S. K. Pradhan

Materials Science and Applications, 04 177-186 (2010)

Open access 93. ―Microstructure and optical characterization of CdTe quantum dots synthesized in a

record minimum time‖ S. Patra and S.K.Pradhan

J. Appl. Phys, 108, 083515 (2010) I.F.=2.168

92. ―Electrical transport behaviour of nonstoicheometric magnesium-zinc ferrite‖ S. Ghatak, M. Sinha, A. K. maikap, S. K. Pradhan

Materials Research Bulletin, 45, 954-960 (2010) I.F= 2.105

91. ―Microstructure characterization of ball-mill prepared ternary Ti0.9Al0.1C by X-ray diffraction and electron microscopy‖

H. Dutta, A. Sen, S.K. Pradhan, J. Alloys and Compounds, 501, 198-203 (2010) I.F.=2.289

90. ―In-situ high temperature annealing of nanostructured ZrTiO4 prepared by mechanical

alloying‖ H. Dutta, S.K. Pradhan

Physica E, 42, 1772-1776 (2010) I.F.=1.532

89. ―Microstructure characterization of nanocrystalline TiC synthesized by mechanical

alloying‖ B. Ghosh and S.K. Pradhan

Materials Chem. and Phys., 120, 537-545 (2010)

I.F.= 2.234

88. ―Preparation of ternary Ti0.9Ni0.1C cermets by mechanical alloying: Microstructure characterization by Rietveld method and electron microscopy‖ H. Dutta, A. Sen, J. Bhattacharjee,S.K. Pradhan

J. Alloys and Compounds, 493, 666-671 (2010) I.F.=2.289

87. ―Synthesis of nanocrystalline Cd–Zn ferrite by ball milling and its stability at elevated temperatures‖

M. Sinha and S.K. Pradhan J. Alloys and Compounds, 489, 91-98 (2010)

I.F.=2.289

86. ―Mechanosynthesis of nanocrystalline titanium nitride and its microstructure

characterization‖ U. K. Bhaskar, S. Bid, B. Satpati and S.K. Pradhan

J. Alloys and Compounds, 493, 192-196 (2010) I.F.=2.289

85. ―Alternate current conductivity and dielectric properties of nonstoichiometric nanocrystalline Mg–Zn ferrite below room temperature‖

S. Ghatak, M. Sinha, A.K. Meikap, S.K. Pradhan

Physica E, 42, 1397-1405 (2010) I.F.=1.532

84. ―Microstructure characterization of mechanically synthesized ZnS quantum dots‖

S. Patra, B. Satpati, S. K. Pradhan J. Appl. Phys, 106, 034313 (2009) I.F.= 2.168

83. ―Microstructural characterization of nanocrystalline SiC synthesized by

high-energy ball-milling‖ B. Ghosh and S.K. Pradhan J. Alloys and Compounds, 486, 480-485 (2009)

I.F=2.289

82. ―Microstructure Characterization of Nanocrystalline Fe3C synthesized by high-energy ball milling‖

B. Ghosh and S.K. Pradhan J. Alloys and Compounds, 477, 127-132 (2009)

I.F.=2.289

81. ―Microstructure Characterization of Nanocrystalline Ni3C synthesized by high-energy ball milling‖

B. Ghosh, H. Dutta and S.K. Pradhan,

J. Alloys and Compounds, 479, 193-200 (2009) I.F.=2.289

80. ―Electrical properties of nanocrystalline Zinc ferrite‖ S. Ghatak, M. Sinha, A. K. Meikap and S. K. Pradhan

Physica E, 40, 2686-2693 (2008) I.F.= 1.532

79. ―Phase Stability of Nanocrystalline Mg-Zn Ferrite at Elevated Temperatures‖ Monika Sinha, Hema Dutta, and Swapan Kumar Pradhan

Jpn. J. Appl. Phys., 47, 8667-8672 (2008) I.F.=1.058

78. Atomic-scale structure of nanosized Titania and Titanates: Particles, Wires and Tubes‖

S. K. Pradhan, Y. Mao, S. S. Wong, P. Chupas and V. Petkov, Chem. Mater. 19, 6180-6186. (2007)

I.F.= 7.286 77. ―PbZr1-xTixO3 by soft synthesis: structural aspects‖

S. K. Pradhan, M. Gateshki, M. Neiderberger, Y. Ren and V. Petkov Phys. Rev. B., 76, 014114 (2007)

I.F.= 3.691 76.‖Three dimensional structure of CdX (X=Se, Te) nanocrystals by total x-ray

diffraction‖ S.K. Pradhan, Z.T. Deng, F. Tang, C. Wang, Y. Ren, P. Moeck and V. Petkov

J. Appl. Phys, 102, 044304 (2007) I.F.= 2.168

75. ―Microstructure characterization and phase transformation kinetics of ball-mill prepared nanocrystalline Mg-Zn-ferrite by Rietveld analysis and electron microscopy‖

H. Dutta, M. Sinha, Y.-C. Lee and S. K. Pradhan

Mat. Chem. & Phys., 105, 31-37 (2007) I.F.= 2.234

74. ―Microstructure characterization of mechanosysthesized nanocrystalline NiFe2O4 by

Rietveld's analysis‖ S. Bid, P. Sahu and S.K. Pradhan

Physica E, 39, 175-184 (2007) I.F.= 1.532

73. ―Microstructure characterization and polymorphic transformation kinetic study of ball

milled nanocrystalline a-TiO2 – 20 mol% m-ZrO2 mixture by x-ray diffraction and electron microscopy‖ H. Dutta, Y.-C. Lee and S. K. Pradhan

Physica E, 36, 17-27 (2007) I.F.= 1.532

72. " Order-disorder phase transition in nanocrystalline Ni3Al prepared by chemical route"

M. Pal , S.K. Pradhan, P. Bose, A. Datta and D. Chakravorty Physica E, 31, 224-227 (2006)

I.F.= 1.532 71. ―Preparation of nanocrystalline CuAlFeS2-mixed chalcopyrite by high-energy ball

milling‖ S.K. Pradhan, B. Ghosh, S. Dutta Roy, and L.K. Samanta

Physica E, 33, 66-68 (2006) I.F.= 1.532

70. ―Mechanosynthesis of nanocrystalline CuFeS2 chalcopyrite‖ S.K. Pradhan, B. Ghosh and L.K. Samanta

Physica E, 33, 144-146 (2006) I.F.=1.532

69. ―Annealing effect on nano-ZnO powder studied from positron lifetime and optical absorption spectroscopy‖

S. Dutta, S. Chattopadhyay, D. Jana, A. Banerjee, S. Manik, S. K. Pradhan, M. Sutradhar, and A. Sarkar. J. Appl. Phys., 100, 114328 (2006)

I.F.= 2.168

68. ―Microstructure characterization of ball mill prepared nanocrystalline CaCu3Ti4O12 by Rietveld method‖ S. K. Manik and S. K. Pradhan,

Physica E, 33, 160-168 (2006) I.F.= 1.532

67. ―Preparation of nanocrystalline microwave dielectric Zn2TiO4 and ZnTiO3 mixture and x-ray microstructure characterization by Rietveld method‖

S. K. Manik and S. K. Pradhan, Physica E, 33, 69-76 (2006)

I.F.= 1.532

66 ―X-ray characterization and phase transformation kinetics of ball-mill prepared nanocrystalline Mg–Zn-ferrite at elevated temperatures‖ M. Sinha, H. Dutta and S.K. Pradhan Physica E, 33, 367-369 (2006)

I.F.= 1.532

65. "Microstructure characterization of nanocrystalline ZrSiO4 synthesized by ball milling

and high temperature annealing" S.K. Pradhan and M. Sinha

J. Appl. Cryst. 38, 951-957 (2005) I.F.=5.152

64. ―Atomic scale structure of nanocrystalline ZrO2‖ M. Gateshki, V. Petkov, G. Williams, S.K. Pradhan and Y. Ren

Physical Review B. 71, 224107 (2005) I.F.= 3.691

63. ―Microstructure characterization and phase transformation kinetic study of ball milled m-ZrO2 – 30mol% a-TiO2 mixture by Rietveld method‖

S.K. Pradhan and H. Dutta, Physica E, 27, 405-419 (2005) I.F.= 1.532

62. ―Characterization of chemically prepared nanocrystalline CaTiO3‖

S. K. Manik, S.K. Pradhan and M. Pal Physica E, 25, 421-424 (2005) I.F.= 1.532

61. "Structure of nanocrystalline MgFe2O4 from X-ray diffraction, Rietveld and atomic

pair distribution function analysis" M. Gateshki, V. Petkov, S.K. Pradhan and T. Vogt J. Appl. Cryst. 38, 772-779 (2005)

I.F.= 5.152

60.‖Microstructure characterization and cation distribution in nanocrystalline magnesium ferrite prepared by ball milling‖ S.K. Pradhan, S. Bid, M. Gateshki and V. Petkov

Materials Chem. and Phys. 93, 224-230 (2005) I.F.= 2.234

59. ―X-ray characterization and phase transformation kinetics of ball-mill prepared nanocrystalline Mg-Ni ferrite at elevated temperatures‖

M. Sinha, H. Dutta and S. K. Pradhan

Physica E , 28, 43 (2005) I.F.= 1.532

58. ―X-ray microstructure characterization of ball-milled nanocrystalline microwave dielectric CaZrO3 by Rietveld method‖

S.K. Manik and S.K. Pradhan J. Appl. Crystallography, 38, 291-298 (2005)

I.F.=5.152 57. "Electrical conductivity in nanostructured magnetite-hematite composites produced

by mechanical milling" S.Dutta, S.K. Manik, M. Pal, S.K. Pradhan, P. Bramha and D. Chakraborty

J. Mag. Mag. Mater., 288, 301-306 (2005) I.F.= 1.780

56. ―Dielectric behavior of Fe-ion-doped BaTiO3 nanoparticles ‖ A. Jana, T. K. Kundu, S.K. Pradhan and D. Chakravorty

J. Appl. Phys., 97, 044311 (2005) I.F.=2.168

55. ―Study of Microstructural Defect Parameters in Vanadium–Aluminium Alloys using Warren–Averbach Method and Modified Rietveld Technique‖

J. Ghosh, S. K. Chattopadhayay, A. K. Meikap, S. K. Chatterjee and S. K. Pradhan

Jpn. J. Appl. Phys., 44, 6678-6682 (2005). I.F.= 1.058

54. "Phase transition of magnetite by mechanical alloying"

S. Dutta, S.K. Manik, M. Pal, S.K. Pradhan, P. Brahma and D. Chakravorty Ind. J. Phys., 78A, 201 (2004). I.F.=0.381

53."Synthesis of nanocomposites comprising Iron and Barium Hexaferrites"

M. Pal, S. Bid, S.K. Pradhan, B.K. Nath, B. Das, D. Chakravorty J. Magn. Magn. Mater., 269, 42-47 (2004) I.F.= 1.780

52. "Characterization of crystalline structure of ball-milled nano-Ni-Zn-ferrite by

Rietveld method". S. Bid and S.K. Pradhan

Mater. Chem. and Phys.,84, 291-301 (2004).

I.F.= 2.234

51."Microstructure characterization and phase transformation kinetics of mechanosynthesized non-stoichiometric CdFe2O4 by Rietveld's analysis". Srinjoy. Bid and Swapan Kumar Pradhan.

Jpn J. Appl. Phys., 43, 5455-5464 (2004). I.F.=1.058

50. "Microstructure characterization of ball milled prepared nanocrystalline perovskite CaTiO3 by Rietveld method".

S.K. Manik and S.K. Pradhan, Mater. Chem. and Phys., 86, 284-292 (2004).

I.F.=2.234

49."X-ray diffraction studies of the decomposition and microstructure characterization of the cold-worked powders of Cu-15Ni-Sn alloys by Rietveld analysis" P. Sahu, S.K. Pradhan and M. De

J. Alloys and Compounds, 377, 103-116 (2004). I.F.=2.289

48. ―Phase transformation kinetics and microstructure characterization of high- energy ball-milled ZrO2 -10mol% TiO2 by Rietveld analysis‖.

H. Dutta, S.K. Manik and S.K. Pradhan J. Appl. Cryst. vol. 36, 260-268 (2003)

I.F.= 5.152 47. ―Preparation and microstructure characterization of high- energy ball-milled m-ZrO2 -

20mol% a-TiO2 by Rietveld analysis‖. H. Dutta, S.K. Manik and S.K. Pradhan

Materials Science and Engg. A. 359, 269-279 (2003) I.F.= 2.003

46. ―Rietveld analysis of polymorphic transformations of ball milled anatase TiO2‖ P. Bose, S.K. Pradhan and Suchitra Sen

Materials Chem. and Phys. vol. 80, 73-81 (2003) I.F.= 2.234

45. ―X-ray microstructure characterization and magnetic susceptibility measurement of ball milled CeO2‖

S.Bid, P. Pal, D. Neogy and S.K. Pradhan Materials Engg. vol. 14, 7-21 (2003) I.F.=

44. "Microstructure characterization and Phase transformation kinetics of polymorphic

transformed ball milled a-TiO2 -10mol% m-ZrO2 mixture by Rietveld method". S.K. Manik, H. Dutta, S.K. Pradhan Mater. Chem. and Phys. vol. 82, 848-859 (2003).

I.F.= 2.234

43. ―Preparation of Zinc ferrite by high-energy ball-milling and microstructure characterization by Rietveld’s analysis.

S. Bid and S.K. Pradhan Materials Chem. and Phys. vol. 82, 27-37 (2003)

I.F.= 2.234

42. "Microstructure characterization and phase transformation kinetics of ball milled prepared nanocrystalline Zn2TiO4 by Rietveld method".

S.K. Manik, P.Bose and S.K. Pradhan, Mater. Chem. and Phys. vol. 82, 837-847 (2003). I.F.= 2.234

41. "Correlation between microstructure and mechanical property of as-cast VxPd1-x

binary alloys" S.K. Manik, A.K. Maikap, S.K. Chattopadhyay, S.K. Chatterjee and S.K. Pradhan. Mater. Eng. vol. 14, 311-326 (2003).

I.F.=

40. ―Microstructure characterization of polymorphic transformed ball milled anatase TiO2 by Rietveld method‖, H. Dutta, P. Sahu, S.K. Pradhan and M. De

Materials Chem. and Phys., .77, 153 (2003) I.F.= 2.24

39. ― Microstructure characterization of high energy ball milled nanocrystalline V2O5 by Rietveld analysis‖,

H. Dutta and S.K. Pradhan, Materials Chem. and Phys., 77, 868 (2003)

I.F.= 2.234

38. ―Preparation and microstructure characterization of ball-milled ZrO2 powder by Rietveld method : Monoclinic to cubic phase transformation without any additive‖.

S.Bid and S.K. Pradhan, J. Appl. Crystallography, 35, 517-525 (2002) I.F.= 5.152

37. ―X-ray characterization of microstructure and correlation with mechanical property of

α- Cu and Ag-Ga alloys‖ P. Sahu, S.K. Pradhan and M. De, Materials Engg. 13, 245 (2002).

I.F.=

36. ―Microstructural characterization and mechanical property of Cd-48.7 wt.% Ag alloy‖, P. Bose, S.K. Shee, S.K. Pradhan and M. De,

Materials Engg., 13, 299 (2002) I.F.=

35. ―X-ray characterization of nanocrystalline Ni3Fe‖,

P. Bose, S. Bid, S.K. Pradhan, M. Pal and D. Chakravorty, J. Alloys and Compounds , .343, 192-198 (2002)

I.F.=2.289

34. ―Microstructure evolution on ball-milling elemental blends of Ni, Al and Ti by Rietveld method‖, H. Dutta, S.K. Pradhan, M. De.

Materials Chemistry and Physics, 74, 167-176 (2002). I.F.= 2.234

33. ―Nanophase iron oxides by ball-mill grinding and their Mossbauer characterization‖. S. Bid, A. Banerjee, S. Kumar, S.K. Pradhan, Udayan De and D. Banerjee

J. Alloys and Compounds, 326, 292-297 (2001) I.F.=2.289

32. ―X-ray studies on the kinetics of microstructural evolution of Ni3Al synthesized by ball-milling elemental powders‖,

S.K. Pradhan, A. Chanda, S.K. Shee, P. Bose and M. De, Materials Chemistry and Physics, 68, 166-174 (2001)

I.F.= 2.234 31. ―Correlation between microstructure and mechanical property of industrial Cu-Mn-Zn

alloys: Effect of transitional solute Mn‖, H. Dutta, S.K. Pradhan and M. De.

Indian J. Phys., 75A, 607 (2001) I.F.= 0.381

30. ―X-ray characterization of microstructure and its correlation with mechanical

property of CdAg alloys‖, P. Bose, S.K. Shee, S.K. Pradhan and M. De.

Materials Engg., 12, 353 (2001)

I.F.=

29. ―Correlation of microstructure with mechanical property of Cu-Mn-Zn alloys‖. H. Dutta, S.K. Shee, S.K. Pradhan and M. De, Materials Engg. 11, 159 (2000)

I.F.=

28. ―Effect of alloying on the microstructure and mechanical properties of Ni3Al. S.K. Shee, S.K. Pradhan and M.De‖, J. Alloys and Compounds, 265, 249-256 (1998)

I.F.=2.289

27. ―Effect of thermal stress on the microstructures of aluminium metal matrix composites‖.

S.K. Shee, S.K. Pradhan and M.De, Materials Chemistry & Physics, 52, 228-234 (1998)

I.F.= 2.234

26. ―Preparation and characterization of nanocrystalline PbS‖, S.K. Pradhan, A. Datta, M. Mukherjee and D. Chakravorty, J. Mater. Sci. Lett, 15, 654-657 (1996)

I.F.= 0.443

25. ―Microstructural characterization of sol-gel prepared nanocrystalline Ni3Cu alloy‖ S.K. Pradhan, M. Pal, A. Dutta and D. Chakravorty. Metall. Mater. Trans. A., 27, 4213-4216 (1996)

I.F.=1.545

24. ―Correlation of microstructure and mechanical properties of Cu-Mn-Si alloys‖. S.K. Shee, Hiranmay Pal, S.K. Pradhan and M. De, Materials Engg., 7, 431 (1996)

I.F.=

23. ―Characterization of Deformed and As-cast Microstructure of Copper-Aluminium-Iron Alloys : Influence of Increased Fe solute (alpha+beta)-phase‖, Hiranmay Pal, Swapan Kumar Pradhan and Madhusudan De,

Jpn. J. Appl. Phys., 35, 1836-1841 (1996) I.F.= 1.058

22. ―Characterization of the Microstructure of deformed Al-Zn-Cu Alloys by X-ray Diffraction Line Profile Analysis‖,

Hiranmay Pal, S.K. Pradhan and M. De Metallur. Mater. Trans., 26A, 1011-1013 (1995).

I.F.=1.545 21. ―Microstructure and Phase-Transformation Studies of Cu-Ni-Sn Alloys‖.

Hiranmay Pal, Swapan Kumar Pradhan and Madhusudan De Jpn. J. Appl. Phys., 34, 1619 (1995)

I.F.= 1.058 20. ―Microstructure and Mechanical Property of alpha-Al-Zn-Cu alloys aged at Room

Temperature‖, Hiranmay Pal, Swapan Kumar Pradhan and Madhusudan De

Mater. Trans., JIM.(Japan), 36, 490 (1995) I.F.=0.779

19. ―X-ray powder profile analyses on nanostructured N iobium metal powders. S.K. Pradhan, Tushar Chakraborty, S.P. Sen Gupta, C. Suryanarayana, A. Frefer and

F.H. Froes, Nano Structured Materials, (Acta Metall.) 5, 53-61 (1995)

I.F.= 3.755 18. ―Microstructure of Melt Spun Zr-25%Al ribbon‖,

L. Lutterotti, S.K. Pradhan , S. Gialanella & A.R. Yavari, Mat. Res. Soc. Symp. Proc., 364, 1077 (1995)

I.F.= 17. ―Synthesis of aluminium matrix composites containing nano-crystalline oxide

phases.‖, S.K. Pradhan, A. Datta, A. Chatterjee, M. De and D. Chakravorty.

Bull. Mater. Sci., 17, 849-853 (1994). I.F.= 0.880

16. ―Low temperature mullite formation from sol-gel precursors by hot pressing.‖ S.K. Pradhan, A. Datta, M. De and D. Chakravorty

J. Materials Research, 9, 2474-2475 (1994). I.F.= 1.434

15. ― Stability of Cubic phase in nanocrystalline ZrO2‖, A. Chatterjee, S.K. Pradhan, A. Datta, M. De and D. Chakravorty,

J. Materials Research, 9, 263-265 (1994). I.F.= 1.434

14. ―Stacking Faults as determined by XRPD and its correlation with Mechanical property for some Ternary Industrial Alloys‖,

H. Pal, S.K. Pradhan and M. De Proceedings of the III School on X-ray Diffraction from polycrystalline Materials, Microstructural characterization of Materials by XRD, University of Trento, Italy. (16-

18 Feb.),), p. 83-98. (1994)

13. ―Correlation of Microstructure with Mechanical Property of Silicon-Bronze in the

alpha and ( + )-phase‖,

Hiranmay Pal, S.K. Pradhan and M. De Ind. J. Phys., 68A, 239 (1994). I.F.= 0.381

12. ―Microstructural Characterisation of Hexagonal (Ag,Cu)4Zn Alloys in the Deformed

and As-cast State.‖, Hiranmay Pal, Swapan Kumar Pradhan and Madhusudan De Jpn. J. Appl. Phys., 33, 1443 (1994).

I.F.= 1.058

11. ―Synthesis of crystalline nickel-zinc ferrite by the sol-gel method‖, A. Chatterjee, D. Das, S.K. Pradhan and D. Chakravorty,

J. Magnetism and Mag. Mat, 127, 214-218 (1993). I.F.= 1.780

10. ―Structural characterization of the CuIn intermetallic phase produced by interfacial reactions in Cu/In bimetallic films‖,

Rita Roy, S.K. Pradhan, M. De and S.K. Sen Thin Solid Films, 229, 140-142 (1993)

I.F.= 1.890 9. ―Characterization of deformed and as-cast microstructure of Copper-Aluminium-Iron

alloys (alpha-phase)‖, Hiranmay Pal, S.K. Pradhan and M. De Jpn. J. Appl. Phys., 32, 1164 (1993)

I.F.= 1.058

8. ― An X-ray diffraction line profile analysis in cold-worked hexagonal ()-phase and

mixed ( + )-phase of Copper-germanium alloys‖,

A.K. Maity, S.K. Pradhan, M. De and S.P. Sen Gupta, Metallurgical Transactions A, 20A, 1142-1144 (1989) I.F.=1.545

7. ―X-ray diffraction line profile analysis on the microstructure of cold-worked face

centered cubic Cu-Ge-Si alloys. Effects of dilute olutes, Si and Ge‖, S.K. Pradhan and M. De, Metallurgical Transactions A, 20A, 1883-1885 (1989)

I.F.=1.545

6. ―An X-ray diffraction of the thermal expansion of alpha-phase Cu-Si alloys at high temperatures‖, S.K. Pradhan and M. De,

J. Appl. Cryst., 22, 380 (1989) I.F.= 5.152

5. ―An X-ray diffraction line profile analysis in cold-worked Copper-silicon alloys in the fcc phase‖,

S.K. Pradhan, M. De & S.P. Sen Gupta, Indian J. Phys., 62A, 890 (1988)

I.F.= 0.381 4. ―An X-ray diffraction line profile analysis on the microstructure of cold-worked face

centered cubic Cu-Mn-Si alloys. Effects of Mn and Si as solutes‖, S.K. Pradhan and M. De,

J. Appl. Phys., 64, 2324-2327 (1988) I.F.= 2.168

3. ―An X-ray determination of the thermal expansion of -phase Cu-Al alloys at high temperatures‖,

S.K. Pradhan and M. De, J. Appl. Cryst., 21, 980 (1988)

I.F.= 5.152 2. ― An X-ray diffraction study of lattice imperfections in cold-worked face-centered

cubic alloys. VI. Copper-aluminium (-phase)‖, S.K. Pradhan, A.K. Maity, M. De & S.P. Sen Gupta,

J. Appl. Phys., 62, 1521-1523 (1987). I.F.= 2.168

1. ― An X-ray determination of the thermal expansion of -phase Ag-Al alloys at high

temperatures‖, S.K. Pradhan and M. De J. Appl. Cryst., 19, 484 (1986)

I.F.= 5.152

Publications in National/international conferences

1. ―Microstructure characterization of ball milled m-ZrO2 – 10mol%CeO2 mixture by Rietveld method‖

H. Dutta, S. Saha, S. K. Pradhan Proceedings of the international conference on Laser, Materials Science &

Communication‖ held at the University of Burdwan, India from December, 7-9, 2011 (ISBN: 978-93-80813-14-1), page: 189-191.

2. ―Microstructure characterization of doped and undoped Ti-base metal nitrides‖

U. K. Bhaskar and S. K. Pradhan Proceedings of the international conference on Laser, Materials Science & Communication‖ held at the University of Burdwan, India from December, 7-9, 2011

(ISBN: 978-93-80813-14-1), page: 186-188.

Citations

Dr. S. K. Pradhan - Google Scholar Citations

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All Since 2008 Citations 1289 797 h -index 20 17 i10 -index 39 27

Citation indices Citations to my articles

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Title / Author Cited by Year

Synthesis of nanocrystalline nickel-zinc ferrite by the sol-gel method A Chatterjee, D Das, SK Pradhan, D Chakravorty 123 1993 Journal of magnetism and magnetic materials 127 (1-2), 214-218

Preparation of zinc ferrite by high-energy ball-milling and microstructure characterization by Rietveld's analysis 76 2003 S Bid, SK Pradhan

Materials chemistry and physics 82 (1), 27-37

Microstructure characterization and cation distribution of nanocrystalline magnesium ferrite prepared by ball milling 55 2005 SK Pradhan, S Bid, M Gateshki, V Petkov

Materials chemistry and physics 93 (1), 224-230

Characterization of crystalline structure of ball-milled nano-Ni-Zn-ferrite by Rietveld method 45 2004 S Bid, SK Pradhan Materials chemistry and physics 84 (2-3), 291-301

Stability of cubic phase in nanocrystalline ZrO 2 A Chatterjee, SK Pradhan, A Datta, M De, D Chakravorty 45 1994 Journal of materials research 9 (2), 263-265

Preparation and microstructure characterization of ball-milled ZrO2 powder by the Rietveld method: monoclinic to cubic phase transformation without any additive 42 2002

S Bid, SK Pradhan

Journal of applied crystallography 35 (5), 517-525

Microstructure characterization of polymorphic transformed ball-milled anatase TiO2 by Rietveld method 38 2003 H Dutta, P Sahu, SK Pradhan, M De

Materials chemistry and physics 77 (1), 153-164

Atomic-scale structure of nanosized titania and titanate: particles, wires, and tubes 37 2007 SK Pradhan, Y Mao, SS Wong, P Chupas, V Petkov

Chemistry of Materials 19 (25), 6180-6186

Atomic-scale structure of nanocrystalline ZrO_ {2} prepared by high- energy ball milling 37 2005 M Gateshki, V Petkov, G Williams, SK Pradhan, Y Ren Physical Review B 71 (22), 224107

Microstructure characterization and phase transformation kinetics of ball- milled prepared nanocrystalline Zn2TiO4 by Rietveld method 36 2003 SK Manik, P Bose, SK Pradhan

Materials chemistry and physics 82 (3), 837-847

Annealing effect on nano-ZnO powder studied from positron lifetime and optical absorption spectroscopy 35 2006 S Dutta, S Chattopadhyay, D Jana, A Banerjee, S Manik, SK Pradhan, M ... Journal of applied physics 100, 114328

Structure of nanocrystalline MgFe2O4 from X-ray diffraction, Rietveld and

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Dr. S. K. Pradhan - Google Scholar Citations

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atomic pair distribution function analysis 32 2005 M Gateshki, V Petkov, SK Pradhan, T Vogt

Journal of applied crystallography 38 (5), 772-779

X- ray studies on the kinetics of microstructural evolution of Ni3Al synthesized by ball milling elemental powders 32 2001 SK Pradhan, SK Shee, A Chanda, P Bose, M De

Materials chemistry and physics 68 (1-3), 166-174

Nanophase iron oxides by ball-mill grinding and their Mössbauer characterization 30 2001 S Bid, A Banerjee, S Kumar, SK Pradhan, U De, D Banerjee

Journal of alloys and compounds 326 (1-2), 292-297

Rietveld analysis of polymorphic transformations of ball milled anatase TiO2 28 2003 P Bose, SK Pradhan, S Sen Materials chemistry and physics 80 (1), 73-81

X- ray powder profile analyses on nanostructured niobium metal powders SK Pradhan, T Chakraborty, SP Sen GuptaC, A Prefer, FH Froes 27 1995 Nanostructured materials 5 (1), 53-61

Dielectric behavior of Fe-ion-doped BaTiO nanoparticles A Jana, TK Kundu, SK Pradhan, D Chakravorty 22 2005 Journal of applied physics 97, 044311

Preparation of nanocrystalline microwave dielectric Zn2TiO4 and ZnTiO3 mixture and X-ray microstructure characterization by Rietveld method 21 2006 SK Manik, SK Pradhan

Physica. E, low-dimentional systems and nanostructures 33 (1), 69-76

Phase transformation kinetic study and microstructure characterization of ball-milled m-ZrO2-10 mol% a-TiO2 by Rietveld method 21 2003 H Dutta, SK Manik, SK Pradhan

Journal of applied crystallography 36 (2), 260-268

Microstructure characterization of nanocrystalline Ni3C synthesized by high-energy ball milling 20 2009 B Ghosh, H Dutta, SK Pradhan Journal of Alloys and Compounds 479 (1-2), 193-200

Microstructure characterization of mechanosynthesized nanocrystalline

NiFe2O4 by Rietveld's analysis 20 2007 S Bid, P Sahu, SK Pradhan

Physica E: Low-dimensional Systems and Nanostructures 39 (2), 175-184

X- ray diffraction studies of the decomposition and microstructural characterization of cold-worked powders of Cu-15Ni-Sn alloys by Rietveld analysis 20 2004

P Sahu, SK Pradhan, M De

Journal of alloys and compounds 377 (1-2), 103-116

Synthesis of nanocomposites comprising iron and barium hexaferrites M Pal, S Bid, SK Pradhan, BK Nath, D Das, D Chakravorty 20 2004

Journal of magnetism and magnetic materials 269 (1), 42-47

Microstructure characterization and phase transformation kinetics of polymorphic transformed ball milled a-TiO2-10 mol% m-ZrO2 mixture by Rietveld method 20 2003

SK Manik, H Dutta, SK Pradhan

Materials chemistry and physics 82 (3), 848-859

Microstructure characterization and phase transformation kinetics of ball- mill prepared nanocrystalline Mg-Zn-ferrite by Rietveld's analysis and electron microscopy 19 2007

H Dutta, M Sinha, YC Lee, SK Pradhan

Materials chemistry and physics 105 (1), 31-37

Microstructure characterization of ball milled prepared nanocrystalline perovskite CaTiO3 by Rietveld method 19 2004 SK Manik, SK Pradhan

Materials chemistry and physics 86 (2-3), 284-292

Effect of alloying on the microstructure and mechanical properties of Ni3Al 18 1998 SK Shee, SK Pradhan, M De Journal of alloys and compounds 265 (1-2), 249-256

Microstructure characterization of nanocrystalline Fe3C synthesized by high-energy ball milling 17 2009

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B Ghosh, SK Pradhan

Journal of Alloys and Compounds 477 (1-2), 127-132

X- ray microstructure characterization of ball-milled nanocrystalline microwave dielectric CaZrO3 by Rietveld method 17 2005 SK Manik, SK Pradhan

Journal of applied crystallography 38 (2), 291-298

X- ray characterization of nanocrystalline Ni3Fe P Bose, S Bid, SK Pradhan, M Pal, D Chakravorty 17 2002 Journal of alloys and compounds 343 (1-2), 192-198

Effect of thermal stress on the microstructures of aluminium metal matrix composites 17 1998 SK Shee, SK Pradham, M De Materials chemistry and physics 52 (3), 228-234

Microstructural characterization of nanocrystalline SiC synthesized by

high-energy ball-milling 15 2009 B Ghosh, SK Pradhan

Journal of Alloys and Compounds 486 (1-2), 480-485

Microstructure characterization of mechanically synthesized ZnS quantum dots 15 2009 S Patra, B Satpati, SK Pradhan

Journal of Applied Physics 106 (3), 034313 -034313 -8

Microstructural evolution on ball-milling elemental blends of Ni, Al and Ti by Rietveld's method 14 2002 H Dutta, SK Pradhan, M De

Materials chemistry and physics 74 (2), 167-176

Microstructure characterization of nanocrystalline TiC synthesized by mechanical alloying 12 2010 B Ghosh, SK Pradhan

Materials Chemistry and Physics 120 (2-3), 537-545

Microstructure characterization of high energy ball-milled nanocrystalline V2O5 by Rietveld analysis 12 2003 H Dutta, SK Pradhan Materials chemistry and physics 77 (3), 868-877

Microstructure and Mechanical Property of or-Al-Zn-Cu Alloys Aged at Room Temperature 12 1995

H Pal, SK Pradhan, M De

Phase Stability of Nanocrystalline Mg–Zn Ferrite at Elevated Temperatures 11 2008 M Sinha, H Dutta, SK Pradhan Jpn J Appl Phys 47 (11), 8667-8672

Microstructure Characterization and Phase Transformation Kinetic Study of Mechanosynthesized Non-Stoichiometric CdFe2O4 by Rietveld’s Analysis 11 2004

S Bid, SK Pradhan

Japanese journal of applied physics. Pt. 1, Regular papers & short notes 43 ...

Characterization of Deformed and As-cast Microstructure of Copper- Aluminium-Iron Alloys ( -Phase) H Pal, SK Pradhan, M De 9 1993 JAPANESE JOURNAL OF APPLIED PHYSICS PART 1 REGULAR PAPERS SHORT

NOTES AND ...

Quickest Single-Step Mechanosynthesis of CdS quantum dots and their microstructure characterization 8 2011 S Patra, B Satpati, SK Pradhan Journal of Nanoscience and Nanotechnology 11 (6), 4771-4780

Microstructure characterization of nanocrystalline ZrSiO4 synthesized by ball-milling and high-temperature annealing 7 2005 SK Pradhan, M Sinha

Journal of applied crystallography 38 (6), 951-957

X- ray characterization and phase transformation kinetics of ball-mill prepared nanocrystalline Mg–Ni-ferrite at elevated temperatures 7 2005 M Sinha, H Dutta, SK Pradhan Physica E: Low-dimensional Systems and Nanostructures 28 (1), 43-49

Synthesis of nanocrystalline PbS by a chemical route M Mukherjee, A Datta, SK Pradhan, D Chakravorty 7 1996

Journal of materials science letters 15 (8), 654-657

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Microstructure and phase-transformation studies of Cu-Ni-Sn alloys H Pal, SK Pradhan, M De 7 1995 Japanese journal of applied physics 34 (part 1), 1619-1626

Synthesis of aluminium matrix composites containing nanocrystalline oxide phases 7 1994 SK Pradhan, A Datta, A Chatterjee, M De, D Chakravorty

Bulletin of Materials Science 17 (6), 849-853

Structural characterization of the CuIn intermetallic phase produced by interfacial reactions in Cu/In bimetallic films 7 1993 R Roy, SK Pradhan, M De, SK Sen

Thin solid films 229 (2), 140-142

Mechanosynthesis of nanocrystalline CuFeS2 chalcopyrite SK Pradhan, B Ghosh, LK Samanta 6 2006 Physica E: Low-dimensional Systems and Nanostructures 33 (1), 144-146

Nanocrystalline CaTiO< sub> 3</sub> prepared by soft-chemical route SK Manik, SK Pradhan, M Pal 6 2005 Physica E: Low-dimensional Systems and Nanostructures 25 (4), 421-424

Preparation of nanodimensional CdS by chemical dipping technique and their characterization 5 2011 S Patra, P Mitra, SK Pradhan Materials Research 14 (1), 17-20

Mechanosynthesis of nanocrystalline titanium nitride and its microstructure characterization 5 2010 UK Bhaskar, S Bid, B Satpati, SK Pradhan

Journal of Alloys and Compounds 493 (1-2), 192-196

Three-dimensional structure of CdX (X= Se, Te) nanocrystals by total x- ray diffraction 5 2007 SK Pradhan, ZT Deng, F Tang, C Wang, Y Ren, P Moeck, V Petkov

Journal of Applied Physics 102, 044304

Microstructure characterization of ball-mill-prepared nanocrystalline CaCu3Ti4O12 by Rietveld method 5 2006 SK Manik, SK Pradhan Physica E: Low-dimensional Systems and Nanostructures 33 (1), 160-168

Preparation and microstructure characterization of m-ZrO< sub>

2</sub>–20 mol% a-TiO< sub> 2</sub> ball milled mixture by Rietveld method 5 2003

H Dutta, SK Manik, SK Pradhan

Materials Science and Engineering: A 359 (1), 269-279

Characterisation of Deformed and As-cast Microstructure of Copper- Aluminium-Iron Alloys-H: Influence of Increased Fe Solute (ct+/3-Phase) 5 1996 H Pal, SK Pradhan, M De Jpn. J. Appi. Phys. Vol 35 (3 Pt 1), 1836-1841

An x ray diffraction study of lattice imperfections in cold worked

face centered cubic alloys. VI. Copper aluminum (α phase) 5 1987 SK Pradhan, AK Maity, M De, SP Sen Gupta

Journal of applied physics 62 (4), 1521-1523

Correlation of Microstructure with Mechanical Property of Cu-Mn-Zn Alloys 4 2000 H Dutta, SK Shee, SK Pradhan, M De

MATERIALS ENGINEERING -MODENA - 11 (2), 159-180

Low temperature mullite formation from sol-gel precursors by hot pressing SK Pradhan, A Chatterjee, A Datta, M De, D Chakravorty 4 1994 Journal of materials research 9 (10), 2474-2475

An X-ray determination of the thermal expansion of-phase Cu-Al alloys at high temperature 4 1988 SK Pradhan, M De Journal of Applied Crystallography 21 (6), 980-981

An x ray diffraction line profile analysis on the microstructure of

cold worked face centered cubic Cu Mn Si alloys: Effects of Mn and

Si as solutes 4 1988

SK Pradhan, M De

Journal of applied physics 64 (5), 2324-2327

Mechanochemical solid state synthesis of (Cd0. 8Zn0. 2) S quantum dots: Microstructure and optical characterizations 3 2011 S Sain, SK Pradhan

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Journal of Alloys and Compounds

Microstructure and optical characterization of CdTe quantum dots synthesized in a record minimum time 3 2010 S Patra, SK Pradhan

Journal of Applied Physics 108 (8), 083515 -083515 -9

Preparation of ternary Ti0. 9Ni0. 1C cermets by mechanical alloying: Microstructure characterization by Rietveld method and electron microscopy 3 2010

H Dutta, A Sen, J Bhattacharjee, SK Pradhan

Journal of Alloys and Compounds 493 (1-2), 666-671

Electrical transport properties of nanocrystalline zinc ferrite S Ghatak, M Sinha, AK Meikap, SK Pradhan 3 2008 Physica E: Low-dimensional Systems and Nanostructures 40 (8), 2686-2693

X- ray characterization and phase transformation kinetics of ball-mill prepared nanocrystalline Mg–Zn-ferrite at elevated temperatures 3 2006 M Sinha, H Dutta, SK Pradhan Physica E: Low-dimensional Systems and Nanostructures 33 (2), 367-369

Microstructure characterization and phase transformation kinetic study of ball-milled m-ZrO< sub> 2</sub>–30mol% a-TiO< sub> 2</sub> mixture by Rietveld method 3 2005

SK Pradhan, H Dutta

Physica E: Low-dimensional Systems and Nanostructures 27 (4), 405-419

An X-ray determination of the thermal expansion of-phase Ag-Al alloys at high temperatures 3 1986 SK Pradhan, M De

Journal of applied crystallography 19 (6), 484-485

Microstructural, magnetic and optical characterizations of nanocrystalline Zn1− x Mn x O dilute magnetic semiconductors synthesized by mechanical alloying 2 2012

S Sain, J Bhattacharjee, M Mukherjee, D Das, SK Pradhan

Journal of Alloys and Compounds 519, 112

Microstructural, magnetic and optical characterizations of nanocrystalline Zn< sub> 1-x</sub> Mn< sub> x</sub> O dilute magnetic semiconductors synthesized by mechanical alloying 2 2011

S Sain, J Bhattacharjee, M Mukherjee, D Das, SK Pradhan

Journal of Alloys and Compounds

Microstructure and optical band-gap of mechano-synthesized CdxZn1− xS quantum dots 2 2011 S Sain, S Patra, SK Pradhan Journal of Physics D: Applied Physics 44, 075101

Microstructural evolution of nanostructured Ti< sub> 0.9</sub> Al< sub>

0.1</sub> N prepared by reactive ball-milling 2 2011 UK Bhaskar, S Bid, SK Pradhan

Journal of Alloys and Compounds 509 (3), 620-626

Electrical transport behavior of nonstoichiometric magnesium–zinc ferrite S Ghatak, M Sinha, AK Meikap, SK Pradhan 2 2010 Materials Research Bulletin 45 (8), 954-960

In-situ high temperature annealing of nanostructured ZrTiO4 prepared by mechanical alloying 2 2010 H Dutta, SK Pradhan Physica E: Low-dimensional Systems and Nanostructures 42 (5), 1772-1776

PbZr_ {1− x} Ti_ {x} O_ {3} by soft synthesis: Structural aspects SK Pradhan, M Gateshki, M Niederberger, Y Ren, V Petkov 2 2007 Physical Review B 76 (1), 014114

Preparation of nanocrystalline CuAlFeS< sub> 2</sub>-mixed chalcopyrite by high-energy ball milling 2 2006 SK Pradhan, B Ghosh, S Dutta Roy, LK Samanta Physica E: Low-dimensional Systems and Nanostructures 33 (1), 66-68

Study of Microstructural Defect Parameters in Vanadium–Aluminium Alloys using Warren–Averbach Method and Modified Rietveld Technique 2 2005 J Ghosh, SK Chattopadhayay, AK Meikap, SK Chatterjee, SK Pradhan

Jpn J Appl Phys 44 (9), 6678-6682

Electrical conductivity in nanostructured magnetite–hematite composites produced by mechanical milling 2 2005 S Dutta, SK Manik, M Pal, SK Pradhan, P Brahma, D Chakravorty

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Journal of magnetism and magnetic materials 288, 301-306

X-RAY MICROSTRUCTURE CHARACTERISATION AND MAGNETIC SUSCEPTIBILITY MEASUREMENT OF BALL MILLED CeO 2 2 2003 S Bid, P Paul, D Neogy, SK Pradhan

Mater. Eng. 14 (1), 7 -21

X- ray characterization of microstructure and its correlation with mechanical property of CdAg alloys 2 2001 P Bose, SK Shee, SK Pradhan, M De MATERIALS ENGINEERING -MODENA - 12 (3), 353-370

X-Ray diffraction line profile analysis on the microstructure of cold-worked

face-centered cubic Cu-Ge-Si alloys: Effects of dilute solutes Si and GE 2 1989 SK Pradhan, M De

Metallurgical and Materials Transactions A 20 (9), 1883-1885

An x-ray diffraction line profile analysis in cold-worked hexagonal (σ)- phase and mixed (α+ σ)-phase of copper-germanium alloys 2 1989 AK Maity, SK Pradhan, M De, SP Sen Gupta Metallurgical and Materials Transactions A 20 (6), 1142-1144

Microstructural, optical and quantum confinement effect study of mechanically synthesized ZnTe quantum dots 1 2012 S Patra, SK Pradhan

Acta Materialia 60 (1), 131-138

Quickest single-step one pot mechanosynthesis and characterization of ZnTe quantum dots 1 2011 S Patra, SK Pradhan

Journal of Alloys and Compounds

Direct and Alternate Current Conductivity and Magnetoconductivity of Nanocrystalline Cadmium-Zinc Ferrite below Room Temperature 1 2011 S Ghatak, G Chakraborty, M Sinha, SK Pradhan, AK Meikap Materials Sciences and Applications 2

Alternate current conductivity and dielectric properties of

nonstoichiometric nanocrystalline Mg-Zn ferrite below room temperature 1 2010 S Ghatak, M Sinha, AK Meikap, SK Pradhan

Physica E: Low-dimensional Systems and Nanostructures 42 (5), 1397-1405

Synthesis of nanocrystalline Cd-Zn ferrite by ball milling and its stability at elevated temperatures 1 2010 M Sinha, SK Pradhan Journal of Alloys and Compounds 489 (1), 91-98

Electrical Conductivity, Magnetoconductivity and Dielectric Behaviour of (Mg, Ni)-Ferrite below Room Temperature 1 2010 S Ghatak, AK Meikap, M Sinha, SK Pradhan, VR Chinchamalatpure, SA Ghosh, GN ...

Materials Sciences and Applications 1

Microstructure characterization and polymorphic transformation kinetic study of ball-milled nanocrystalline a-TiO2-20 mol% m-ZrO2 mixture by X- ray diffraction and electron microscopy 1 2007

H Dutta, YC Lee, SK Pradhan

Physica E: Low-dimensional Systems and Nanostructures 36 (1), 17-27

Order–disorder transition in nanocrystalline Ni< sub> 3</sub> Al prepared by a chemical route 1 2006 M Pal, SK Pradhan, P Bose, A Datta, D Chakravorty Physica E: Low-dimensional Systems and Nanostructures 31 (2), 224-227

Phase transition of magnetite by mechanical alloying S Dutta, SK Manik, M Pal, SK Pradhan, P Brahma, D Chakravorty

1 2004 INDIAN JOURNAL OF PHYSICS AND PROCEEDINGS OF THE INDIAN ASSOCIATION FOR THE ...

Correlation between microstructure and mechanical property of as-cast V~ xPd~ 1~-~ x binary alloys 1 2003 SK Manik, AK Maikap, SK Chattopadhyay, SK Chatterjee, SK Pradhan

MATERIALS ENGINEERING -MODENA - 14 (3), 311-326

Synthesis of Nanocrystalline Ni 3 Cu by Sol-Gel route SK Pradhan, A Datta, M Pal, D Charkavorty 1 1996 Metallurgical and Materials Transactions A 27 (12), 4213-4216

Microstructural Characterisation of Hexagonal (Ag, Cu) Zn~ 4 Alloys in the Deformed and As-Cast State H Pal, SK Pradhan, M De 1 1994 JAPANESE JOURNAL OF APPLIED PHYSICS PART 1 REGULAR PAPERS SHORT

NOTES AND ...

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Title / Author Cited by Year

Quickest ever single-step mechanosynthesis of Cd0. 5Zn0. 5S quantum dots: Nanostructure and optical characterizations 2012 S Sain, S Patra, SK Pradhan

Materials Research Bulletin 47 (4), 1062

Microstructure Characterization of Nanocrystalline Magnesium Ferrite Annealed at Elevated Temperatures by Rietveld Method 2011 SK Pradhan, S Sain, H Dutta ISRN Ceramics 2011

Mechanosynthesis of nanocrystalline Ti< sub> 0.9</sub> C< sub> 0.1</sub> N at room temperature and its microstructural aspects 2011 UK Bhaskar, SK Pradhan

Materials Science and Engineering: A

Microstructure, Mössbauer, and Optical Characterizations of

Nanocrystalline -F e O Synthesized by Chemical Route 2011 A Banerjee, S Patra, M Chakrabarti, D Sanyal, M Pal, SK Pradhan ISRN Ceramics 2011

One-step fastest method of nanocrystalline CuAlS 2 chalcopyrite synthesis, and its nanostructure characterization 2011 B Ghosh, SK Pradhan Journal of Nanoparticle Research 13 (6), 2343-2350

Anomalous Electrical Transport Properties of Nonstoichiometric Nickel ferrite below room Temperature 2011 S Ghatak, M Sinha, AK Meikap, SK Pradhan

Materials Research Bulletin

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Microstructure and optical characterizations of mechanosynthesized

nanocrystalline (Ti< sub> 0.9</sub> Si< sub> 0.1</sub>) N 2013 UK Bhaskar, B Satpati, SK Pradhan Powder Technology

One step quickest mechanosynthesis of nanocrystalline Ti< sub> 0.9</sub> Si< sub> 0.1</sub> C and its microstructure characterization 2013 A Sen, T Kar, SK Pradhan

Journal of Alloys and Compounds

Microstructural changes and effect of variation of lattice strain on positron annihilation lifetime parameters of zinc ferrite nanocomposites prepared by high enegy ball-milling 2012

A Banerjee, S Bid, H Dutta, S Chaudhuri, D Das, SK Pradhan

Materials Research 15 (6), 1022-1028

Diverse Role of Silicon Carbide in the Domain of Nanomaterials T Sahu, B Ghosh, SK Pradhan, T Ganguly 2012 International Journal of Electrochemistry 2012

One-step mechanosynthesis of nano structured Ti (CxN 1-x) cermets at room temperature and their microstructure characterization 2012 UK Bhaskar, SK Pradhan Materials Chemistry and Physics 134 (2-3), 1088-1096

Mechanosynthesis of nanocrystalline Ti0. 9C0. 1N at room temperature and its microstructural aspects 2012 UK Bhaskar, SK Pradhan

Materials Science and Engineering -A-Structural Materials 534, 400

Quickest ever single-step mechanosynthesis of Cd< sub> 0.5</sub> Zn< sub> 0.5</sub> S quantum dots: Nanostructure and optical characterizations 2012

S Sain, S Patra, SK Pradhan

Materials Research Bulletin

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Structure, structural phase transitions, mechanical properties, defects- Atomic-scale structure of nanocrystalline ZrO2 prepared by high-energy ball milling 2005

M Gateshki, V Petkov, G Williams, SK Pradhan, Y Ren

Physical Review-Section B-Condensed Matter 71 (22), 224107 -224107

Structure and Mechanical and Thermal Properties of Condensed Matter- Study of Microstructural Defect Parameters in Vanadium-Aluminium Alloys using Warren-Averbach Method and Modified Rietveld 2005

J Ghosh, SK Chattopadhayay, AK Meikap, SK Chatterjee, SK Pradhan

Japanese Journal of Applied Physics-Part 1 Regular Papers and Short Notes 44 ...

Microstructural characterization and mechanical property of Cd-48.7 wt.% Ag alloy 2002 P Bose, SK Shee, SK Pradhan, M De MATERIALS ENGINEERING -MODENA - 13 (3), 299-316

X- ray characterization of microstructure and correlation with mechanical property of cu and Ag-Ga alloys 2002 P Sahu, SK Pradhan, M De

MATERIALS ENGINEERING -MODENA - 13 (2), 245-263

Correlation between microstructure and mechanical property of industrial Cu-Mn-Zn alloys- Effect of transitional solute Mn 2001 SK Pradhan, H Dutta, M De Processing and fabrication of advanced materials IX, 145-156

Correlation between microstructure and mechanical property of industrial Cu-Mn-Zn alloys: effect of transitional solute Mn 2001 H Dutta, SK Pradhan, M De

Indian journal of physics A and Proceedings of the Indian Association for ...

Correlation of microstructure with mechanical property of Cu-Si-Mn alloys SK Shee, H Pal, SK Pradhan, M De 1996 MATERIALS ENGINEERING -MODENA - 7, 431-442

Characterization of the microstructure of deformed Al-Zn-Cu alloys by X- ray diffraction line profile analysis 1995 H Pal, SK Pradhan, M De Metallurgical and Materials Transactions A 26 (4), 1011-1013

Microstructure of Zr-25 at.% Al melt spun ribbons L Lutterotti, SK Pradhan, S Gialanella, AR Yavari 1994 High-Temperature Ordered Intermetallic Alloys VI, 1077-1082

Microstructure of Zr-25at.% Al Melt Spun Ribbons. L Lutterotti, SK Pradhan, S Gialanella, AR Yavari 1994 MRS Proceedings 364 (1)

SYNTHESIS OF ALUMINIUM MATRIX COMPOSITES CONTAINING NANOCRYSTALLINE OXIDE PHASES 1994

A Chatterjee, A Datta, SK Pradhan

Correlation of microstructure with mechanical property of silicon-bronze in the and ( + gamma) phase H Pal, SK Pradhan, M De 1994

INDIAN JOURNAL OF PHYSICS AND PROCEEDINGS OF THE INDIAN ASSOCIATION

FOR THE ...

An X-ray determination of the thermal expansion of-phase Cu-Si alloys at high temperature 1989 SK Pradhan, M De Journal of applied crystallography 22 (4), 380-381

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