| Various aspects of LiNiO2 chemistry: A review P Kalyani, N Kalaiselvi Science and technology of advanced materials 6 (6), 689, 2005 | 366 | 2005 |
| Nitrogen containing bio-carbon as a potential anode for lithium batteries KR Saravanan, N Kalaiselvi Carbon 81, 43-53, 2015 | 121 | 2015 |
| A new solution combustion route to synthesize LiCoO2 and LiMn2O4 P Kalyani, N Kalaiselvi, N Muniyandi Journal of Power Sources 111 (2), 232-238, 2002 | 121 | 2002 |
| CAM sol–gel synthesized LiMPO4 (M=Co, Ni) cathodes for rechargeable lithium batteries Gangulibabu, D Bhuvaneswari, N Kalaiselvi, N Jayaprakash, ... Journal of Sol-Gel Science and Technology 49, 137-144, 2009 | 97 | 2009 |
| Exploration of artificial neural network [ANN] to predict the electrochemical characteristics of lithium-ion cells T Parthiban, R Ravi, N Kalaiselvi Electrochimica Acta 53 (4), 1877-1882, 2007 | 91 | 2007 |
| CuFe2O4/SnO2 nanocomposites as anodes for Li-ion batteries RK Selvan, N Kalaiselvi, CO Augustin, CH Doh, C Sanjeeviraja Journal of power sources 157 (1), 522-527, 2006 | 86 | 2006 |
| A novel approach to exploit LiFePO4 compound as an ambient temperature high capacity anode material for rechargeable lithium batteries N Kalaiselvi, CH Doh, CW Park, SI Moon, MS Yun Electrochemistry communications 6 (11), 1110-1113, 2004 | 68 | 2004 |
| Designed formulation of Se-impregnated N-containing hollow core mesoporous shell carbon spheres: multifunctional potential cathode for Li–Se and Na–Se batteries B Kalimuthu, K Nallathamby ACS applied materials & interfaces 9 (32), 26756-26770, 2017 | 65 | 2017 |
| Betti reaction enables efficient synthesis of 8-hydroxyquinoline inhibitors of 2-oxoglutarate oxygenases CC Thinnes, A Tumber, C Yapp, G Scozzafava, T Yeh, MC Chan, TA Tran, ... Chemical Communications 51 (84), 15458-15461, 2015 | 65* | 2015 |
| High sulfur loaded carbon aerogel cathode for lithium–sulfur batteries K Balakumar, N Kalaiselvi Rsc Advances 5 (43), 34008-34018, 2015 | 63 | 2015 |
| On the electrochemical behavior of LiMXFe1− XPO4 [M= Cu, Sn; X= 0.02] anodes–An approach to enhance the anode performance of LiFePO4 material N Jayaprakash, N Kalaiselvi Electrochemistry communications 9 (4), 620-628, 2007 | 60 | 2007 |
| Microwave-assisted synthesis of LiNiO2—a preliminary investigation P Kalyani, N Kalaiselvi, NG Renganathan Journal of power sources 123 (1), 53-60, 2003 | 57 | 2003 |
| An innovative soft-chemistry approach to synthesize LiNiVO4 P Kalyani, N Kalaiselvi, N Muniyandi Materials chemistry and physics 77 (3), 662-668, 2003 | 57 | 2003 |
| Role of structural defects in olivine cathodes S Kandhasamy, K Nallathamby, M Minakshi Progress in Solid State Chemistry 40 (1-2), 1-5, 2012 | 53 | 2012 |
| Studies on LiNi0. 7Al0. 3− xCoxO2 solid solutions as alternative cathode materials for lithium batteries P Kalyani, N Kalaiselvi, NG Renganathan, M Raghavan Materials research bulletin 39 (1), 41-54, 2004 | 53 | 2004 |
| One-pot, glycine-assisted combustion synthesis and characterization of nanoporous LiFePO4/C composite cathodes for lithium-ion batteries N Kalaiselvi, A Manthiram Journal of Power Sources 195 (9), 2894-2899, 2010 | 49 | 2010 |
| Electrochemical characterization of an aqueous lithium rechargeable battery: The effect of CeO2 additions to the MnO2 cathode M Minakshi, K Nallathamby, DRG Mitchell Journal of alloys and compounds 479 (1-2), 87-90, 2009 | 48 | 2009 |
| Optimisation of PVdF-based polymer electrolytes N Muniyandi, N Kalaiselvi, P Periyasamy, R Thirunakaran, S Gopukumar, ... Journal of power sources 96 (1), 14-19, 2001 | 48 | 2001 |
| Sb2S3 added bio-carbon: Demonstration of potential anode in lithium and sodium-ion batteries V Mullaivananathan, N Kalaiselvi Carbon 144, 772-780, 2019 | 45 | 2019 |
| Coir pith derived bio-carbon: demonstration of potential anode behavior in lithium-ion batteries V Mullaivananathan, R Sathish, N Kalaiselvi Electrochimica Acta 225, 143-150, 2017 | 45 | 2017 |
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