Curriculum Vitae. Basharat Ahmad Want Residential Address

Transcription

1 Curriculum Vitae Basharat Ahmad Want Residential Address Associate Professor H.No. 26, Barkat lane, Department of Physics Botashah Mohalla, University of Kashmir , India Lalbazar, Srinagar, J & K Mobile: Home: basharatwant@gmail.com, Date of Birth: April 07, 1970 bawant@kashmiruniversity.ac.in Place of Birth: Srinagar, J & K Website : Teaching Experience Research Experience : 22 years (including post graduate teaching) : 10 years Qualification: Ph.D. (Major : Physics, Sub-category: Experimental Solid State Physics), University of Kashmir, India in Present Job Position: Associate Professor of Physics, Department of Physics, University of Kashmir, Srinagar, India. Past Job Positions: 1. Served as a Lecturer in Physics (on Adhoc basis) in the Amar Singh College, Higher Education Department, Govt. of Jammu and Kashmir from M a r c h October Assistant professor ( permanent) in Physics in Islamia College of Science and Commerce, Srinagar from November November Assistant professor ( permanent) of Physics, Higher Education Department, Govt. of Jammu and Kashmir from D e c e m b e r June Associate Professor of Physics, Department of Physics, University of Kashmir, from July 2010.

2 Research interest: Single crystal growth of Metal Organic Framework with ferroelectric properties and nonlinear optical properties. Physics of Ferroelectric materials. Ferroelectric Ceramics, Multiferroic materials, Magnetic ferrites. Synthesis and characterization of BaTiO3/ Spinel ferrite multiferroic composite materials. Processing and characterization of multiferroic thin films. Dielectric & Electrical properties of materials. Magnetic ferrites. Distinctions and Awards: 1. Sultana N. Nahar prize for distinction in Physics teaching (2015), Ohio University, USA Research Experience: Ferroelectric and Dielectric Materials: Single crystal growth ferroelectric materials based on r a r e -earth coordination compounds. and characterization of PZT and Barium Titanate ceramics and composites for high dielectric constant materials. Multiferroic properties of ceramic materials based on perovskite and spinel ferrite (cubic structured) materials.

3 Ph.D. supervision: 3 awarded Ph.D. degrees; and supervising 3 more PhD students. Research Guidance: ( M.Phil./ Ph.D.) Scholar Title Status 1. Zahoor Ahmad Bhat (M.Phil, 2013) 2. Feroz Ahmad Dar( M.Phil 2013) 3. Rubiya Samad (M.Phil, 2014) 4. Mairaj ud-din Rather (M.Phil,2015) 5. Mairaj-ud-Din Shah (PhD,2016) 6. Bilal Hamid Bhat ( PhD, 2016) 7. Zahoor Ahmad Bhat (PhD, 2017) 8. Rubiya Samad (PhD, 2018) Crystal Growth of Some Rare (Awarded) Earth Molybdates by Gel Diffusion Technique. Crystallization of Some Pure and Substituted Rare-Earth Oxalates. Crystal growth of some rare-(awardedearth containing coordination compounds and their characterization. Dielectric and Magnetic (Awarded) Properties of Some Multiferroic Materials. Studies on crystal growth of some pure and mixed rare earth fumarates and their characteristics. Preparation and characterization of pure and doped M-type hexaferrites. (Awarded) (Awarded) (Awarded) Crystal growth and (Awarded) characterization of metalorganic complexes and studies on their ferroelectric and spectroscopic properties. Dielectric and magnetic (under characterization of ferriteferroelectric crystalline Submission) materials.

4 Sponsored Research Projects: Agency DST- SERB Title of Project Period of Support Total Cost Remarks June Investigations on crystal growth March 2017 and characterization of some Lacs Completed ferroelectric rare-earth coordination compounds UGC Crystal growth by low temperature solution growth method... July July Lacs Completed DST Preparation and characterization of ferroelectric-ferrite composites May Lacs Ongoing PRESENTATIONS IN NATIONAL/INTERNATIONAL CONFERENCES 1. X-ray Crystal Structure of Holmium tartrate National Conference on Advanced Materials & Technology, September,2004. DAV College, Amritsar. 2. Ferroelectric behaviour of some rare earth tartrates Thirteenth National Seminar on Ferroelectrics and Dielectrics (NSFD-XIII), November, 2004,Department of Physics and Astrophysics, University of Delhi 3. Dielectric properties, a.c. conductivity and thermal behaviour of gadolinium tartrate trihydrate crystals,2nd J & K Science Congress, July, 2006, University of Kashmir 4. Dielectric and ferroelectric behaviour of terbium tartrate trihydrate crystals 6 th J & K Science Congress, 2-4 Dec, 2010,University of Kashmir 5. Spherulitic Crystallization of rare-earth tartrates in gel medium International Conference on Nanotechnology and Nano- Materials, December University of Delhi 6. Dielectric and ferroelectric behaviour of a rare-earth coordination compound: Erbium Tartrate dehydrate, International Conference and Workshop on Nanostructured Ceramics and other Nanomaterials, March, 2012.University of Delhi

5 7. Dielectric characterization of mixed holmium-gadolinium tartrate dihydrate Recent trends in Materials Science Research, September 3-5, National Institute of Technology, Srinagar 8. Crystal growth of some rare-earth fumarates by gel diffusion technique 8 th J & K Science Congress, Sep, 2012.University of Kashmir 9. Crystallization of holmium octa-molybdate in silica gel and its characterization 9 th J & K Science Congress, 1-3, Oct. 2013,University of Kashmir 10. Growth, characterization and dielectric properties of gadolinium fumarate heptahydarte single crystals, 9 th J & K Science Congress, 1-3, Oct. 2013,University of Kashmir 11. Growth, characterization and dielectric properties of single crystal terbium tartrate 9 th J & K Science Congress, 1-3, Oct. 2013,University of Kashmir 12. Dielectric, ferroelectric and non-linear optical characteristics of a crystalline rare-earth coordination compound:terbium tartrate trihydrate, Frontiers of Materials Science, 2-6 Dec, 2013, International Centre for Materials Science, JNCASR, University of Cambridge and Sheikh Saqr Lab.,Bangalore. 13. Dielectric, ferroelectric and non-linear optical behaviour of terbium hydrogen tartrate trihydrate single crystals. International Conference on Multifunctional materials, structures and applications, Dec, 2014, Motilal Nehru National Institute of Technology, Allahabad 14. Ferroelectricity in a hybrid metal organic coordination material National conference on Advances in materials and materials processing May, 2015, NIT, Srinagar 15. Ferroelectric and non-linear optical behaviour of terbium tartrate single crystals 11th J & K Science Congress,12-14 October, 2015, University of Kashmir 16. Ferroelectric transition and dielectric nonlinearity in hydrogen bonded metal organic complex :[Nd (C4H5O6)(C4H4O6)][3H2O] 10th International conference on Advances in Mechanical, Material science, Manufacturing, Automobile, Aerospace Engineering and Applied Physics 7th November, 2015,Krishi Sanskriti,Jawahar Lal Nehru University, New Delhi. 17. Structure, ferroelectric and non-linear optical behaviour of lanthanide based metal-organic framework: [Nd(C4H5O6)(C4H4O6)][3H2O] 10th Asian Ferroelectric Meet (AFM 10), 7-11 November, 2016,University of Delhi. 18. Characterization of Magnetic Materials by First Order Reversal Curve Method (FORC), 2nd Global Conference on Applied Physics, Mathematics and Computing, University of Complutense, Madrid, Spain from 25th July to 27 July, 2018.

6 Publications: Number of publications: 37, RG Factor: 29.9 List of publications (Peer reviewed International /National Journals) 1. Single crystal growth and characterization of holmium tartrate trihydrate. BasharatWant, Farooq Ahmad and P.N. Kotru, Journal of Crystal Growth(2007) 299, (Impact factor : 1.75) 2. Dielectric characterization of gadolinium tartrate trihydrate crystals. Basharat Want, Farooq Ahmad and P.N. Kotru,Materials Science and Engineering A, (2007) 443, (Impact factor : 3.09) 3. Crystal growth and characterization of gadolinium tartrate trihydrate: Gd(C 4 H 4 O 6 )(C 4 H 5 O 6 ) 3H 2 O Basharat Want,Farooq Ahmad and P.N. Kotru (2006), Mater. Sci. and Engg A, 431, (Impact factor : 3.09) 4. Growth of ytterbium tartrate trihydrate crystals in silica and agar-agar gels and their characterization. Basharat Want, Farooq Ahmad and P. N. Kotru, (2006),Cryst.Res.Technol, 41, Dielectric and thermal characteristics of gel grown single crystals of ytterbium tartrate trihydrate. Basharat Want, Farooq Ahmad and P. N. Kotru, J. Mater. Sci. (2007) 42, Dielectric and thermal behaviour of holmium tartrate trihydrate crystals. Basharat Want, Farooq Ahmad and P. N. Kotru, Cryst. Res. Technol. (2007),42, (Impact factor : 1.00) 7. Magnetic moment measurements of gadolinium, holmium and ytterbium tartrate trihydrate crystals. BasharatWant, Farooq Ahmad and P.N. Kotru,J. Alloys and Comounds (2008) 448, L5-L6. (Impact factor : 3.776) 8. Micromechanical and thermal behavior of gel grown pure and sodium modified copper tartrate crystals. I. Quasim, A. Firdous, Basharat Want, S. Khosa, P.N.Kotru, Journal of Physics and Chemistry of Solids, (2010),71, (Impact factor : 2.059) 9. Single crystal growth and characterization of pure and sodium- modified copper tartrate I.Quasim, A.Firdous, Basharat Want, S. K. Khosa and P.N.Kotru, J. Cryst. Growth (2008), 310, Spherulitic crystallization of holmium tartrate in silica gel, Basharat Want, Applied Physics A (2010) 104, Single crystal growth and characterization of lanthanum-neodymium oxalate decahydrate.

7 BasharatWant, J. Cryst. Growth (2011) 335, Growth and Characterization of Holmium Oxalate Heptahydrate Crystals, BasharatWant, Feroz Dar, Journal of Crystallization Process and Technology, (2012) 2, 137. Publications during period of assessment ( July 2013 to July 2016) 13. Dielectric, ferroelectric and non-linear optical behavior of crystalline erbium tartrate dihydrate, Basharat Want, Current Applied Physics, (2013)13, (Impact factor : 2.058) 14 Growth and characterization of terbium fumarate heptahydrate single crystals, Basharat Want, M.D.Shah, J. Cryst. Growth (2014) 389, Dielectric, ferroelectric and optical behaviour of terbium hydrogen tartrate trihydrate crystals Basharat Want, Rubiya Samad, Journal of Materials Science (2014) 49, (Impact factor : 2.993) 16. Dielectric and conducting behaviour of polycrystalline holmium octa-molybdate compound,basharat Want, Bhat Zahoor Ahmad, Bilal Hamid Bhat, Materials Research Express, (2014)1,35030 (Impact factor : 1.068) 17. Dielectric characteristics and thermal behaviour of terbium fumarate heptahydrate crystals. M.D.Shah, Basharat Want, Current Applied Physics,(2015) 15,64. (Impact factor : 2.058) 18. Effect of lanthanum substitution on dielectric relaxation, impedance response, conducting and magnetic properties of strontium hexaferrite : Basharat Want, BH Bhat, BZ Ahmad, Journal of Alloys and Compounds, (2015) 627,78. (Impact factor : 3.776) 19. Effect on dielectric, magnetic, optical and structural properties of Nd-Co substituted barium hexaferrite nanoparticles: Talwinder Kaur, Sachin Kumar, Bilal Hamid Bhat, Basharat Want, A.K. Srivastava, Applied Physics A, (2015) 19, Dielectric and conducting behavior of gadolinium terbium fumarate heptahydrate crystals. MD Shah,Basharat Want, Journal of Advanced Dielectrics, (2015) 5, Thermal and magnetic properties of lanthanide based metal-organic complex: Neodymium tartrate trihydrate. B.Z. Ahmad, F. Ahmad, Basharat Want, Current Applied Physics, (2015) 15, (Impact factor : 2.058) 22. Enhanced luminescence of rare-earth Tb (III) obtained by mixing of Gd (III) in a fumarate complex and intra-molecular energy transfer, M.D. Shah, Basharat Want, Materials Science Poland, (2015) 33, Magnetic susceptibility measurements of pure and mixed gadolinium terbium fumarate heptahydrate crystals,

8 Basharat Want, M.D. Shah, Journal of Magnetism and Magnetic Materials, (2016) 401, ( impact factor:3.046) 24. Magnetic behaviour of Neodymium-substituted strontium hexaferrite, B.H.Bhat, Basharat Want, Applied Physics A, (2016)122, Structure, ferroelectric ordering, and semiempirical quantum calculations of lanthanide based metal-organic framework:[nd (C 4 H 5 O 6 )(C 4 H 4 O 6 )][3H 2 O], B.Z.Bhat, Basharat Want, Journal of Applied Physics, (2016) 119, Dielectric, ferroelectric and magnetic behavior of BaTiO 3 BaFe 12 O 19 composite Basharat Want,Mairajudin, R. Samad, Journal of Materials Science: Materials in Electronics, (2016) 27, Magnetic, dielectric and complex impedance properties of lanthanum and magnesium substituted strontium hexaferrite, B.H.Bhat, Basharat Want, Journal of Materials Science: Materials in Electronics, (2016) 27, Recent Publications: 28. Magnetic and dielectric properties of Ce-Co substituted BiFeO3 multiferroics Sharma Jyoti; Bhat Bilal; Kumar Arun; Kaur Talwinder; Kumar Sachin; Basharat Want, Srivastava A, Materials Research Express (2017) 4, Dielectric, ferroelectric and magnetic properties of (Pb Pr Zr Ti O 3 ) (CoPr 0.1 Fe 1. 9O 4 ) ceramic composite. Rubiya Samad, Basharat Want, Journal of Alloys and Compounds, (2017) 715, (Impact factor : 3.776) 30. Effect of Neodymium on the Magnetic and Dielectric Properties of Nickel-cobalt Ferrite. Basharat Want, Rubiya Samad, Journal of Magnetics,(2017) 22, Infrared, Raman, electrical and thermal analysis of lithium sulphate monohydrate single crystals. FA Najar, GB Vakil, Basharat Want, Journal of Materials Science: Materials in Electronics, (2017) 28, Magneto-dielectric studies on multiferroic composites of Pr doped CoFe 2 O 4 and Yb doped PbZrTiO 3. Rubiya Samad, K Asokan, Basharat Want, Journal of Alloys and Compounds, (2018) (Impact factor : 3.776) 33. Structural, dielectric and ferroelectric properties of rare earth substituted lead zirconate titanate Rubiya Samad, K Asokan, Basharat Want, Journal of Materials Science: Materials in Electronics, (2018) 29,

9 34. Spectroscopic properties of lanthanide based metal-organic framework [Nd(C 4 H 5 O 6 )(C 4 H 4 O 6 )][3H 2 O]: Theoretical and experimental approaches. Zahoor A Bhat, Basharat Want, Journal of Luminescence, (2018) (Impact factor : 2.732) 35. Improved magnetoelectric effect in ytterbium doped BaTiO 3 CoFe 2 O 4 particulate multiferroic composites, Journal of Alloys and Compounds, (2018) 755, (Impact factor : 3.776) 36. Electrical and mechanical studies on ferroelectric lithium rubidium sulphate crystals, FA Najar, GB Vakil, Basharat Want, Journal of Advanced Dielectrics, (2018)8, Optoelectrical Behavior of Ferroelectric Lithium Rubidium Sulfate Crystals, FA Najar, GB Vakil, Basharat Want, Journal of Electronic materials, DOI: /s Place : Srinagar Dated: Dr. Basharat Want