Dr. R. Lydia
About
Research Area
Dr. R. Lydia’s research work mainly focuses on material science, especially she is expertise in the preparation and characterization of Nanomaterials (Nanoparticles, Nanowires, Nanorods, Nanobelts, etc.), Bulk and single crystal by various techniques using both physical and chemical techniques like Sol-Gel Method, Chemical Vapor Deposition, Chemical co-precipitation method, Hydrothermal, Spin coating, Thermal evaporation, Liquid Phase Pulsed Laser ablation, Solid state reaction, Ball milling
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years
Teaching Experience
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Publications
Notable & Recent Publications
"Joseph Amruthraj Nagoth , Maria Sindhura John , Kesava Priyan Ramasamy , Alessio Mancini, Marco Zannotti, Sara Piras, Rita Giovannetti, Lydia Rathnam, Cristina Miceli, Maria Chiara Biondini and Sandra Pucciarelli Synthesis of Bioactive Nickel Nanoparticles Using Bacterial Strains from an Antarctic Consortium, Marine drugs, Mar. Drugs 2024, 22, 89."
High thermoelectric performance due to nano-inclusions and randomly distributed interface potentials in N-type (PbTe 0.93-x Se 0.07 Cl x ) 0.93 (PbS) 0.07 composites Dianta Ginting, Chan-chieh Lin, Lydia Rathnam, Jae Hyun Yun, Byung-Kyu Yu, Sung-Jin Kim and Jong-Soo Rhyee Journal of materials chemistry A, 5, (2017), 13535, I.F: 14.511.
Enhancement of Thermoelectric Performance in Na-Doped Pb 0.6 Sn 0.4 Te 0.95−x Se x S 0.05 via Breaking the Inversion Symmetry, Band Convergence, and Nanostructuring by Multiple Elements Doping Dianta Ginting, Chan-Chieh Lin, Lydia Rathnam, Gareoung Kim, Jae Hyun Yun, Hyeon Seob So, Hosun Lee, Byung-Kyu Yu, Sung-Jin Kim, Kyunghan Ahn, and Jong-Soo Rhyee ACS Appl. Mater. Interfaces, 10, (2018), 11613, I.F: 10.383.
Enhancement of thermoelectric properties in liquid-phase sintered Te-excess Bismuth Antimony Tellurides prepared by hot press sintering R.Lydia, Yun Min Kim, Jin-Hee Kim, Chan-Chieh Lin, Kyunghan Ahn, Jong-Soo Rhyee Acta Materialia, 135, (2017), 297, I.F: 9.4.
High thermoelectric performance in pseudo quaternary compounds of (PbTe) 0.95-x(PbS) x (PbS) 0.05 by simultaneous band convergence and nano precipitation Dianta Ginting, Chan Chieh Lin, R. Lydia, Hyeon Seob So, Hosun Lee, Junpil Hwang, Woochul Kim, Rabih Al rahal Al Orabi, G. Jeffrey Snyder, and Jong-Soo Rhyee Acta Materialia 131 (2017) 98-109, I.F: 9.4
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