Full Name
Kuppan Saravanan
Saravanan, K.


Results 1-20 of 20 (Search time: 0.008 seconds).

Issue DateTitleAuthor(s)
128-Feb-2013A rationally designed dual role anode material for lithium-ion and sodium-ion batteries: Case study of eco-friendly Fe3O4Hariharan, S.; Saravanan, K. ; Ramar, V.; Balaya, P. 
27-Oct-2009Hollow nanospheres and flowers of cus from self-assembled Cu(II) coordination polymer and hydrogen-bonded complexes of N-(2-Hydroxybenzyl)-L- serineNagarathinam, M. ; Saravanan, K. ; Leong, W.L. ; Balaya, P. ; Vittal, J.J. 
321-Jul-2011Hollow α-LiVOPO4 sphere cathodes for high energy Li-ion battery applicationSaravanan, K. ; Lee, H.S.; Kuezma, M. ; Vittal, J.J. ; Balaya, P. 
42013Interconnected nanofibrous titanium dioxide bronze: An emerging lithium ion anode material for high rate performanceMason, C.W.; Yeo, I.; Saravanan, K. ; Balaya, P. 
510-Mar-2021Key design considerations for synthesis of mesoporous alpha-Li3V2(PO4)(3)/C for high power lithium batteriesLee, Hwang Sheng; Ramar, Vishwanathan; Kuppan, Saravanan ; Nagarathinam, Mangayarkarasi; Law, Markas; Wang, Chen; Tripathi, Abhinav; Balaya, Palani
614-Oct-2011Li(MnxFe1-x)PO4/C (x = 0.5, 0.75 and 1) nanoplates for lithium storage applicationSaravanan, K. ; Ramar, V.; Balaya, P. ; Vittal, J.J. 
714-Oct-2010Lithium storage in a metal organic framework with diamondoid topology-A case study on metal formatesSaravanan, K. ; Nagarathinam, M. ; Balaya, P. ; Vittal, J.J. 
82010Lithium storage using conversion reaction in maghemite and hematiteHariharan, S.; Saravanan, K. ; Balaya, P. 
92010Mesoporous TiO2 with high packing density for superior lithium storageSaravanan, K. ; Ananthanarayanan, K. ; Balaya, P. 
102010Morphology controlled synthesis of LiFePO4/C nanoplates for Li-ion batteriesSaravanan, K. ; Balaya, P. ; Reddy, M.V. ; Chowdari, B.V.R. ; Vittal, J.J. 
1121-Feb-2013Na2Ti3O7: An intercalation based anode for sodium-ion battery applicationsRudola, A.; Saravanan, K. ; Mason, C.W.; Balaya, P. 
1228-Aug-2013Na2Ti6O13: A potential anode for grid-storage sodium-ion batteriesRudola, A.; Saravanan, K. ; Devaraj, S.; Gong, H. ; Balaya, P. 
132010Nanostructured electrode materials for Li-ion batteryBalaya, P. ; Saravanan, K. ; Hariharan, S.
142011Nanostructured mesoporous materials for lithium-ion battery applicationsBalaya, P. ; Saravanan, K. ; Hariharan, S.; Ramar, V.; Lee, H.S.; Kuezma, M. ; Devaraj, S.; Nagaraju, D.H.; Ananthanarayanan, K. ; Mason, C.W.
1511-Jun-2012Redox-active metal-centered oxalato phosphate open framework cathode materials for lithium ion batteriesNagarathinam, M. ; Saravanan, K. ; Phua, E.J.H.; Reddy, M.V. ; Chowdari, B.V.R. ; Vittal, J.J. 
16Oct-2010Storage performance of LiFe 1-xMn xPO 4 nanoplates (x=0, 0.5, and 1)Saravanan, K. ; Vittal, J.J. ; Reddy, M.V. ; Chowdari, B.V.R. ; Balaya, P. 
172009Storage performance of LiFePO4 nanoplatesSaravanan, K. ; Reddy, M.V. ; Balaya, P. ; Gong, H. ; Chowdari, B.V.R. ; Vittal, J.J. 
182013The effect of synthesis parameters on the lithium storage performance of LiMnPO4/CRamar, V.; Saravanan, K. ; Gajjela, S.R.; Hariharan, S.; Balaya, P. 
19Apr-2013The first report on excellent cycling stability and superior rate capability of Na3V2(PO4)3 for sodium ion batteriesSaravanan, K. ; Mason, C.W.; Rudola, A.; Wong, K.H.; Balaya, P. 
20Jun-2013α-MoO3: A high performance anode material for sodium-ion batteriesHariharan, S.; Saravanan, K. ; Balaya, P.