May 6, 2020
Dr. G. Anandha Babu – Assistant Professor
physics
Dr.G.Anandhababu completed his Ph.Dfrom Anna University, Chennai in the year 2010.He received the prestigious Japan Society for the Promotion of Science (JSPS)Postdoctoral fellowship in 2014.He completed postdoctoral research at Graduate School of Engineering, Nagoya University, Nagoya, Japan (2014-2016). His research area of interest includes,Multicrystalline Silicon, Piezoelectric materials, Topological Insulators, Defect Engineering, Semiconductor materials and Crystal growth.To his credit, he has published about 70 papers in peer reviewed international journals and completed DAE-BRNS, DRDO (Two projects), CSIR, DST, SERB (Two projects) and UGC-DAE sponsored research projects.He has filed Japanese and Indian patents. He received Young Scientist Research Grants from DST-SERB in the year 2011 and 2016.He is a recognised Research Supervisor of Anna University. Under his able guidance three students have received Ph.D degree. Currently fourPh.D scholars are doing research under his guidance.He has received financial assistances from DST, CSIR, TNSCST, CICS,SERB and JSPS to attend the “4th Asian conference on Crystal Growth and Crystal Technology;14th International Summer School on Crystal Growth; 16th, 17th and 18th International Conferences on Crystal Growth; 19th American conference on Crystal growth and Epitaxy; 25th and 26thInternational Photovoltaic Science and Engineering Conferencesheld in Sendai, Japan in 2008, Dalian and Beijing, China in August 2010, Warsaw, Poland in August 2013,Nagoya, Japan in August 2016,Keystone, Colorado, USA in July 2013, Busan, South Korea inNovember 2015, Singapore in November 2016 respectively.He is serving as reviewer in many international journals.
Selected publications
Selected publications:
- Gowthami, G.AnandhaBabu,C.Manikandan, E.Varadarajan, R.M.Sarguna, (2023), ‘Improved piezoelectric and electric field-induced strain properties in Eu3+ modified 0.42PMN-0.26PIN-0.32PT ceramics’, Applied Physics A,Vol. 129, Article number: 239.
- Guru Bharath, G.AnandhaBabu, C Manikandan, E.Varadharajan (2023), ‘Improved piezoelectric, thermal stability and ferroelectric properties in ternary 0.39BNT–0.20PZ–0.41PT piezoceramics via low sintering temperature’, Journal of Materials Science: Materials in Electronics, Vol. 34, Article number: 706.
- P. Aravinth Kumar, Arun Kumar, Keshav Kumar, Pragya Singh, G. AnandhaBabu, S.Ganesamoorthy and Dhananjai Pandey, (2021), ‘Growth and Characterization of Dy1-xYxMnO3 Single Crystals by Optical Floating Zone Technique: A Combined X-ray Diffraction and DC Magnetization Study’, J. Crystal Growth, Vol. 565, pp. 126152–126161.
- 4.G.Anandhababu, S.Gowthami, E. Varadarajan, BhupenderRawal, B. Praveenkumar,
- (2021), ‘Enhanced piezoelectric properties in Sm-doped 24Pb(In0.5Nb0.5)O3-42Pb(Mg0.335Nb0.665)O3-34PbTiO3piezoceramics’, Journal of Materials Science: Materials in Electronics, Vol. 32, pp. 3264–3272.
- G.Gopi, A. Edward Prabu, G. Anandhababu, S. Ganesamoorthy, Awadhesh Mani, (2020), ‘Studies on Shubnikov-de Hass oscillations in p-Sb2Te2Se topological insulator’, Materials Research Bulletin, Vol. 124, pp. 110733.
- P.Aravinth Kumar, Arun Kumar, Keshav Kumar, G. Anandhababu, S. Ganesamoorthy, and Dhananjai Pandey, (2019), ‘Evidence for Spin Glass Transition in Hexagonal DyMnO3without Substitutional Disorder’, J. Phys. Chem. C2019, Vol.123, 50, pp. 30499-30508.
- G. Anandhababu, I. Takahashi, T. Muramatsu, N. Usami, (2017), ‘Towards optimized nucleation control in multicrystalline silicon ingot for solar cells’, J. Crystal Growth, Vol. 468, pp. 620-624.
- G. Anandhababu, I. Takahashi, S. Matsushima, N. Usami, (2016), ‘Improved multicrystalline silicon ingot quality using single layer silicon beads coated with silicon nitride as seed layer’, J. Crystal Growth, Vol. 441, pp. 124-130.
- G.Anandhababu, et al. (2014), ‘Growth and characterization of undoped and Mn-doped lead-free piezoelectric NBT-KBT single crystals, Materials Research Bulletin, Vol. 53, pp. 136-140.
- G.Anandhababu, et al. (2014), ‘Growth and investigation of 0.80Na0.5Bi0.5TiO3-0.20K0.5Bi0.5TiO3 lead-free single crystal’, Materials Science and Engineering B, Vol. 185, pp. 134-137.
Link to:
- Google Scholar: https://scholar.google.co.in/citations?user=DyFmGmgAAAAJ&hl=en
- Scopus ID : https://www.scopus.com/authid/detail.uri?authorId=23481173600
- ORCID: https://orcid.org/0000-0001-8049-8598