| Metal organic framework laden poly (ethylene oxide) based composite electrolytes for all-solid-state Li-S and Li-metal polymer batteries S Suriyakumar, S Gopi, M Kathiresan, S Bose, EB Gowd, JR Nair, ... Electrochimica Acta 285, 355-364, 2018 | 130 | 2018 |
| Chitin-incorporated poly (ethylene oxide)-based nanocomposite electrolytes for lithium batteries AM Stephan, TP Kumar, MA Kulandainathan, NA Lakshmi The Journal of Physical Chemistry B 113 (7), 1963-1971, 2009 | 126 | 2009 |
| Composite Polymer Electrolytes Encompassing Metal Organic Frame Works: A New Strategy for All-Solid-State Lithium Batteries AMS N. Angulakshmi, R. Senthil Kumar, M. Anbu Kulandainathan Journal of Physical Chemistry C 118, 24240-24247, 2014 | 119 | 2014 |
| Nanocellulose-laden Composite Polymer Electrolytes for High Performing Lithium-Sulphur Batteries CG Jijeesh R. Nair, Federico Bella, Natarajan Angulakshmi, Arul Manuel Stephan Energy Storage Materials, 2016 | 115 | 2016 |
| Metal–organic framework@ SiO 2 as permselective separator for lithium–sulfur batteries S Suriyakumar, AM Stephan, N Angulakshmi, MH Hassan, MH Alkordi Journal of Materials Chemistry A 6 (30), 14623-14632, 2018 | 114 | 2018 |
| Cycling profile of MgAl2O4-incorporated composite electrolytes composed of PEO and LiPF6 for lithium polymer batteries ∗ N. Angulakshmia, K.S. Nahma, Jijeesh R. Nairb, C Electrochimica Acta 90, 179-185, 2013 | 114 | 2013 |
| Electrospun Trilayer Polymeric Membranes as Separator forLithium–ion Batteries AMS N. Angulakshmi Electrochimica Acta 127, 167-172, 2014 | 98 | 2014 |
| Electrochemical and mechanical properties of nanochitin-incorporated PVDF-HFP-based polymer electrolytes for lithium batteries N Angulakshmi, S Thomas, KS Nahm, AM Stephan, RN Elizabeth Ionics 17 (5), 407-414, 2011 | 90 | 2011 |
| Metal-organic frameworks based membrane as a permselective separator for lithium-sulfur batteries S Suriyakumar, M Kanagaraj, M Kathiresan, N Angulakshmi, S Thomas, ... Electrochimica Acta 265, 151-159, 2018 | 82 | 2018 |
| Thin, flexibleandthermallystableceramicmembranesasseparator for lithium-ionbatteries AMS M. Raja a, N.Angulakshmi b, S.Thomas b, T.PremKumar a Journal of Membrane Science 471, 103-109, 2014 | 79* | 2014 |
| Efficient electrolytes for lithium–sulfur batteries N Angulakshmi, AM Stephan Frontiers in Energy Research 3, 17, 2015 | 70 | 2015 |
| Microporous metal–organic framework (MOF)-based composite polymer electrolyte (CPE) mitigating lithium dendrite formation in all-solid-state-lithium batteries N Angulakshmi, Y Zhou, S Suriyakumar, RB Dhanalakshmi, M Satishrajan, ... ACS omega 5 (14), 7885-7894, 2020 | 66 | 2020 |
| Charge–discharge studies of all-solid-state Li/LiFePO 4 cells with PEO-based composite electrolytes encompassing metal organic frameworks S Suriyakumar, M Kanagaraj, N Angulakshmi, M Kathiresan, KS Nahm, ... RSC advances 6 (99), 97180-97186, 2016 | 59 | 2016 |
| Cycling profile of innovative nanochitin-incorporated poly (ethylene oxide) based electrolytes for lithium batteries * N. Angulakhsmi a, S. Thomas b, Jijeesh R. Nair c Journal of Power Sources 228, 294-299, 2012 | 59* | 2012 |
| SynthesisandelectrochemicalpropertiesofSnSaspossibleanode material forlithiumbatteries n G. GnanaKumar a, K.Reddy b, KeeSukNahma, N Journal of Physics and Chemistry of Solids 73, 1187-1190, 2012 | 53* | 2012 |
| Sisal-derived activated carbons for cost-effective lithium–sulfur batteries NAAMS M. Raja RSC Advances 6, 13772, 2016 | 52 | 2016 |
| Viologens: a versatile organic molecule for energy storage applications M Kathiresan, B Ambrose, N Angulakshmi, DE Mathew, D Sujatha, ... Journal of Materials Chemistry A 9 (48), 27215-27233, 2021 | 49 | 2021 |
| A Co9S8 microsphere and N-doped carbon nanotube composite host material for lithium-sulfur batteries Y Xi, N Angulakshmi, B Zhang, X Tian, Z Tang, P Xie, GZ Chen, Y Zhou Journal of Alloys and Compounds 826, 154201, 2020 | 37 | 2020 |
| A flexible zirconium oxide based-ceramic membrane as a separator for lithium-ion batteries S Suriyakumar, M Raja, N Angulakshmi, KS Nahm, AM Stephan RSC advances 6 (94), 92020-92027, 2016 | 37 | 2016 |
| Ionic conductivity and interfacial properties of nanochitin-incorporated polyethylene oxide–LiN (C2F5SO2) 2 polymer electrolytes N Angulakshmi, TP Kumar, S Thomas, AM Stephan Electrochimica Acta 55 (4), 1401-1406, 2010 | 33 | 2010 |
Manuel Arul Stephan, A. Manuel Step...Senior Principal ScientistDirección de correo verificada de cecri.res.in
