Faculty & Staff
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Dr. Shivanand Madolappa
Assistant Professor
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School/College
Faculty of Natural Sciences
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Department
Department of Physics
Dr. Shivanand Channakote joined the Department of Physics at RUAS as an Assistant Professor in 2018. He draws upon 6 years of academic and 9 years of research experience while advising M.Sc. students on their thesis preparation. He has taught modules such as Mathematical Methods of Physics, Solid State Physics, Physics of Nanomaterials, Materials Science, Instrumentation and Experimental Techniques as well as Engineering Physics. He holds a PhD degree from Gulbarga University in Kalaburgi (2013). He is the recipient of Dr. D. S. Kothari Postdoctoral Fellowship and worked at Materials Research Centre, Indian Institute of Science, Bangalorewas He got fellowship of Research Fellow in Science for Meritorious Student (RFSMS) by UGC New Delhi.
Qualifications
- UG with Specialization
Gulbarga University-Physics, Chemistry, Mathematics, 2006
- PG with Specialization
Materials Science, 2008
- Ph.D. with Specialization
Materials Science, 2013
Experience
Total Years of Experience9 Years/6 Months
- Functional ceramics.
- Dielectrics, Piezoelectric, Ferroelectric
- Multiferroic
- Nanomaterials
- Carbon Materials
- Energy Harvesting
- (Dr. D. S. Kothari Postdoctoral Fellowship (UGC-New Delhi).
- Materials Research Society of India prize for the Best paper published in the Bulletin of Materials Science on Magnetic and Ferroelectric Characteristics of Gd3+ and Ti4+co- doped BiFeO3 Ceramics, Vol.39, No.2 April 2016 pp 593-601.
- Research Fellow in Science for Meritorious Student (RFSMS) (UGC-New Delhi).
Ph.D. Dissertation:
- Studies on synthesis and properties of modified barium titanate and CNT-reinforced ceramics
National Conference Papers
- N. Sharanappa, S. Madolappa, R. Sagar, R. L. Raibagkar, PTCR-NTCR composite behavior of bismuth titanate ceramics, AIP conference Proceeding, 1536: 561-562 (2013).
- C. M. Tavade, N. Sharanappa, S. Madolappa, R. Sagar, R. L. Raibagkar, Temperature dependent impedance behavior of (Ba0.6Sr0.4)(Zr0.65Ti0.35)O3, AIP conference Proceeding, 1536: 563-564 (2013).
- R. Sagar, S. Madolappa, R. L. Raibagkar, Surface Morphology and Dielectric Studies of Zr4+-Rich Barium Titanate, American Institutes of Physics Conference Proceeding, 1349: 645-646 (2011).
International Conference Papers
National Journal Papers
- S. Madolappa, A. V. Anupama, P. W. Jaschin, K. B. R. Varma and B. Sahoo, Improved ferroelectric and magnetic characteristics of Gd3+ and Ti4+co-doped BiFeO3 multiferroic, Bulletin of Materials Science, 39(2): 593-601, (2016). (I.F-1.392, Q3)
- R. Sagar, S. Madolappa and R. L. Raibagkar, Surface Morphology and Dielectric Behavior of Gd-Doped Ba(Zr0.52Ti0.48)O3, Nanocrystalline Ceramics, Transaction of Indian Ceramic Society, 70 [3]: 71-77 (2011). (I.F-0.952, Q3).
- R. Sagar, S. Madolappa, and R. L. Raibagkar, Structural and Transport Properties of Ba1-2xGd2x(Zr0.52Ti0.48)O3nanocrystals, Bionano Frontier, Spl. Issue 221-225 (2010).
- S. Madolappa, R. Sagar, N. Sharanappa, R. L. Raibagkar, Investigation on microstructure and dielectric behavior of (Ba0.999-xGd0.001Crx)TiO3, Bulletin of Materials Science, 36(4): 601-606, (2013). (I.F-1.392, Q3).
International Journal Papers
- S. Madolappa, H. K. Choudhary, N. Punia, A.V. Anupama, and B. Sahoo, Dielectric properties of A-site Mn-doped bismuth sodium titanate perovskite: (Bi0.5Na0.5)0.9Mn0.1TiO3, Materials Chemistry and Physics, 270 (2021) 124849. (I.F-4.094, Q2)
- L. Rao, B. Pahari, S. Madolappa, T. Shet, and K. V. Ramanathan, NMR investigations unveil phase composition−property correlations in Sr0.5Na0.45SiO2.775 fast ion conductor, Solid state nuclear magnetic resonance 24 204-209 2017. (I.F-2.293, Q1)
- S. Madolappa, B. Ponraj, R. Bhimireddi and K. B. R. Varma, Enhanced magnetic and dielectric properties of Ti-doped YFeO3 ceramics, Journal of the American Ceramic Society, 100 (6): 2641–2650 (2017). (I.F-3.784, Q1)
- S. Madolappa, S. Kundu, R. Bhimireddi and K. B. R. Varma Improved insulating Characteristic of Pr-doped BiFeO3 ceramics prepared by sol-gel route, Mater. Res. Express 3, 065009, (2016). (I.F-1.618, Q3).
- S. Madolappa, R. Sagar, N. Sharanappa, R. L. Raibagkar, PTCR and Thermoelectric properties of isovalent co-doped BaTiO3 nanoceramics, Ferroelectric Letters Section, 39: 20-24, (2012). (I.F-0.556, Q4)
- S. Madolappa, R. Sagar and R. L. Raibagkar, Synthesis, structure and electrical investigation of Gd- and Cr-doped BaTiO3 nano particle ceramics, Ferroelectrics, 413: 37-45, (2011). (I.F-0.6, Q4)
- R. Sagar, S. Madolappa and R. L. Raibagkar, Synthesis, structure and electrical studies of praseodumium doped barium zirconium titanate, Materials Chemistry and physics, 140(1): 119-125 (2013). (I.F-4.094, Q2)
- C. M. Tawade, S. Madolappa, N. Sharanappa, and R. L Raibagkar, Microstructural and electrical study of (Ba0.6Sr0.4)(Zr1-xTix)O3ceramics, International journal of research in engineering and technology, 2(08): 184-187 (2013).
- R. Sagar, P. Hudge, S. Madolappa, A. C. Kumbharkhane and R. L. Raibagkar, Electrical properties and microwave dielectric behavior of holmium substituted barium zirconium titanate ceramics, Journal of Alloys and Compound 537: 197-202 (2012). (I.F.-4.65, Q1)
- N. Sharanappa, S. Madolappa, R. Sagar, R. L. Raibagkar, Synthesis, structure, thermal and electrical behavior of La-doped bismuth titanate ceramics, Ferroelectrics Letters section, 39: 81-87 (2012). (I.F-0.556, Q4)
- R. Sagar, S. Madolappa and R. L. Raibagkar, Electrical, dielectric and pyroelectric behavior of Neodymium substituted barium zirconium titanate, Solid State Sciences 14: 211-215 (2012). (I.F-2.434, Q2)
- R. Sagar, S. Madolappa and R. L. Raibagkar, NTCR behavior of Sm-substituted barium zirconium titanate nanocrystalline solid solution, Solid State Communications 151: 1949– 1952 (2011). (I.F-1.92, Q2)
- R. Sagar, S. Madolappa and R. L. Raibagkar, Diffuse phase transition and pyroelectric behavior of cerium doped Ba(Zr0.52Ti0.48)O3, Ferroelectrics Letters section, 38:128–133 (2011). (I.F-0.556, Q4)
- R. Sagar, S. Madolappa, and R. L. Raibagkar, Dielectric and Impedance Studies of Ce- Doped Ba(Zr0.52Ti0.48)O3, Integrated Ferroelectrics, 130:21-26 (2011). (I.F-0.557, Q3)
- C. M. Tavade, R. Sagar, S. Madolappa and R. L. Raibagkar, Synthesis and structural parameters of (Ba0.6Sr0.4)(Zr1-xTix)O3 (x = 0.4 and 0.5) nanoceramics, World Journal of Science and Technology, 1[8] 12-14 (2011).
List of Books
- Magnetic and dielectric studies of Ti-doped YFeO3 ceramics, LAP LAMBERT academic publishing, ISBN: 978-613-9-81571-5.
- Synthesis and studies of pr-doped BiFeO3 nano ceramics, LAP LAMBERT academic publishing, ISBN: 978-613-9-58409-3.
- Dielectric and magnetic properties of co-doped BiFeO3 ceramics, LAP LAMBERT academic publishing, ISBN: 978-3-659-97701-5.