Arumugam Manthiram
Arumugam Manthiram
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TitleCited byYear
Rechargeable lithium–sulfur batteries
A Manthiram, Y Fu, SH Chung, C Zu, YS Su
Chemical reviews 114 (23), 11751-11787, 2014
Challenges and prospects of lithium–sulfur batteries
A Manthiram, Y Fu, YS Su
Accounts of chemical research 46 (5), 1125-1134, 2012
Lithium–sulphur batteries with a microporous carbon paper as a bifunctional interlayer
YS Su, A Manthiram
Nature communications 3, 1166, 2012
Materials challenges and opportunities of lithium ion batteries
A Manthiram
The Journal of Physical Chemistry Letters 2 (3), 176-184, 2011
Rapid, facile microwave-solvothermal synthesis of graphene nanosheets and their polyaniline nanocomposites for energy strorage
AV Murugan, T Muraliganth, A Manthiram
Chemistry of Materials 21 (21), 5004-5006, 2009
Lithium–sulfur batteries: progress and prospects
A Manthiram, SH Chung, C Zu
Advanced materials 27 (12), 1980-2006, 2015
Lithium battery chemistries enabled by solid-state electrolytes
A Manthiram, X Yu, S Wang
Nature Reviews Materials 2 (4), 16103, 2017
Long-life Li/polysulphide batteries with high sulphur loading enabled by lightweight three-dimensional nitrogen/sulphur-codoped graphene sponge
G Zhou, E Paek, GS Hwang, A Manthiram
Nature communications 6, 7760, 2015
Electron-doped superconductivity at 40 K in the infinite-layer compound Sr1–yNdyCu02
MG Smith, A Manthiram, J Zhou, JB Goodenough, JT Markert
Nature 351 (6327), 549, 1991
Nanostructured electrode materials for electrochemical energy storage and conversion
A Manthiram, AV Murugan, A Sarkar, T Muraliganth
Energy & Environmental Science 1 (6), 621-638, 2008
A new approach to improve cycle performance of rechargeable lithium–sulfur batteries by inserting a free-standing MWCNT interlayer
YS Su, A Manthiram
Chemical communications 48 (70), 8817-8819, 2012
Pd− Ti and Pd− Co− Au electrocatalysts as a replacement for platinum for oxygen reduction in proton exchange membrane fuel cells
JL Fernández, V Raghuveer, A Manthiram, AJ Bard
Journal of the American Chemical Society 127 (38), 13100-13101, 2005
Nickel‐rich and lithium‐rich layered oxide cathodes: progress and perspectives
A Manthiram, JC Knight, ST Myung, SM Oh, YK Sun
Advanced Energy Materials 6 (1), 1501010, 2016
Microwave-Solvothermal Synthesis of Nanostructured Li2MSiO4/C (M = Mn and Fe) Cathodes for Lithium-Ion Batteries
T Muraliganth, KR Stroukoff, A Manthiram
Chemistry of Materials 22 (20), 5754-5761, 2010
Atomic structure of a lithium-rich layered oxide material for lithium-ion batteries: evidence of a solid solution
KA Jarvis, Z Deng, LF Allard, A Manthiram, PJ Ferreira
Chemistry of materials 23 (16), 3614-3621, 2011
Understanding the improvement in the electrochemical properties of surface modified 5 V LiMn1. 42Ni0. 42Co0. 16O4 spinel cathodes in lithium-ion cells
J Liu, A Manthiram
Chemistry of Materials 21 (8), 1695-1707, 2009
A perspective on the high-voltage LiMn 1.5 Ni 0.5 O 4 spinel cathode for lithium-ion batteries
A Manthiram, K Chemelewski, ES Lee
Energy & Environmental Science 7 (4), 1339-1350, 2014
LnBaCo2O5+ δ oxides as cathodes for intermediate-temperature solid oxide fuel cells
JH Kim, A Manthiram
Journal of the Electrochemical Society 155 (4), B385-B390, 2008
Spinel-type lithium cobalt oxide as a bifunctional electrocatalyst for the oxygen evolution and oxygen reduction reactions
T Maiyalagan, KA Jarvis, S Therese, PJ Ferreira, A Manthiram
Nature communications 5, 3949, 2014
Nanocrystalline manganese oxides for electrochemical capacitors with neutral electrolytes
YU Jeong, A Manthiram
Journal of the Electrochemical Society 149 (11), A1419-A1422, 2002
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