| Comparison of Storage Mechanisms in RuO2, SnO2, and SnS2 for Lithium-Ion Battery Anode Materials AS Hassan, K Moyer, BR Ramachandran, CD Wick The Journal of Physical Chemistry C 120 (4), 2036-2046, 2016 | 62 | 2016 |
| A theoretical study of cation--π interactions: Li+, Na+, K+, Be2+, Mg2+ and Ca2+ complexation with mono- and bicyclic ring-fused benzene derivatives TC Dinadayalane, A Hassan, J Leszczynski Theoretical Chemistry Accounts 131, 1-11, 2012 | 33 | 2012 |
| Molecular mechanisms for the lithiation of ruthenium oxide nanoplates as lithium-ion battery anode materials: an experimentally motivated computational study AS Hassan, A Navulla, L Meda, BR Ramachandran, CD Wick The Journal of Physical Chemistry C 119 (18), 9705-9713, 2015 | 29 | 2015 |
| Effect of ring annelation on Li+–benzene interaction: A computational study A Hassan, TC Dinadayalane, J Leszczynski Chemical physics letters 443 (4-6), 205-210, 2007 | 29 | 2007 |
| Structural, energetic, spectroscopic and QTAIM analyses of cation–π interactions involving mono-and bi-cyclic ring fused benzene systems A Hassan, TC Dinadayalane, SJ Grabowski, J Leszczynski Physical Chemistry Chemical Physics 15 (48), 20839-20856, 2013 | 24 | 2013 |
| Role of metal-lithium oxide interfaces in the extra lithium capacity of metal oxide lithium-ion battery anode materials SB Ranganath, AS Hassan, BR Ramachandran, CD Wick Journal of The Electrochemical Society 163 (10), A2172, 2016 | 23 | 2016 |
| The effect of ring annelation to benzene on cation-π interactions: DFT study TC Dinadayalane, A Hassan, J Leszczynski Journal of Molecular Structure 976 (1-3), 320-323, 2010 | 22 | 2010 |
| Interfaces in Metal, Alloy, and Metal Oxide Anode Materials for Lithium Ion Batteries SB Ranganath, S Hartman, AS Hassan, CD Wick, BR Ramachandran Proceedings of the 3rd Annual Conference on Materials Science, Metals, and …, 2016 | | 2016 |
| Interfaces in Metal, Alloy, and Metal Oxide Anode SB Ranganath, S Hartman, AS Hassan, CD Wick, BR Ramachandran | | 2016 |
| Density functional theory study of lithium ion battery anode materials: Ruthenium (IV) oxide, tin (IV) oxide, and tin (IV) sulfide B Ramachandran, A Hassan, K Moyer, T Dixon, C Wick ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 249, 2015 | | 2015 |
| Molecular level insight into the lithiation mechanism of RuO2 and the implication for its use as lithium-ion battery electrode material A Hassan, B Ramachandran, C Wick, A Navulla, L Meda ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 249, 2015 | | 2015 |
| A theoretical study of cation--π interactions: Li, Na, K, Be, Mg and Ca complexation with mono-and bicyclic ring-fused benzene derivatives. T Dinadayalane, A Hassan, J Leszczynski Theoretical Chemistry Accounts: Theory, Computation, & Modeling 131 (3), 2012 | | 2012 |
| Investigations of RuO2 and SnO2 nanoclusters as potential lithium ion battery electrode materials A Das, A Hassan, R Ramachandran, C Wick, A Navulla, L Meda | | |
| Investigations of Rutile-type RuO2, SnO2, MnO2 as potential Lithium-Ion Battery Anode Materials A Hassan, C Salmonson, H Payton, R Ramachandran, C Wick, A Navulla, ... | | |
| lithium ion battery electrode materials A Das, A Hassan, R Ramachandran, C Wick, A Navulla, L Meda | | |
| Investigation of the Molecular Mechanisms of Tin Sulfide (SnS K Moyer, A Hassan, C Wick, R Ramachandran | | |
