|Defect-induced plating of lithium metal within porous graphene networks|
R Mukherjee, AV Thomas, D Datta, E Singh, J Li, O Eksik, VB Shenoy, ...
Nature communications 5 (1), 1-10, 2014
|Nanostructured Electrodes for High-Power Lithium Ion Batteries|
R Mukherjee, R Krishnan, TM Lu, N Koratkar
Nano Energy, 2012
|Photo-Thermally Reduced Graphene As High Power Anodes for Lithium Ion Batteries|
R Mukherjee, AV Thomas, A Krishnamurthy, N Koratkar
ACS Nano, 2012
|Carbon science in 2016: Status, challenges and perspectives|
J Zhang, M Terrones, CR Park, R Mukherjee, M Monthioux, N Koratkar, ...
Carbon 98 (70), 708-732, 2016
|Graphene–nanotube–iron hierarchical nanostructure as lithium ion battery anode|
SH Lee, V Sridhar, JH Jung, K Karthikeyan, YS Lee, R Mukherjee, ...
ACS nano 7 (5), 4242-4251, 2013
|Passivation of microbial corrosion using a graphene coating|
A Krishnamurthy, V Gadhamshetty, R Mukherjee, Z Chen, W Ren, ...
Carbon 56, 45-49, 2013
|Protecting silicon film anodes in lithium-ion batteries using an atomically thin graphene drape|
S Suresh, ZP Wu, SF Bartolucci, S Basu, R Mukherjee, T Gupta, ...
ACS nano 11 (5), 5051-5061, 2017
|Synthesis and electrochemical performance characterization of Ce-doped Li3V2 (PO4) 3/C as cathode materials for lithium-ion batteries|
J Dang, F Xiang, N Gu, R Zhang, R Mukherjee, IK Oh, N Koratkar, Z Yang
Journal of power sources 243, 33-39, 2013
|Carbon nanotube sponges as conductive networks for supercapacitor devices|
J Zhong, Z Yang, R Mukherjee, AV Thomas, K Zhu, P Sun, J Lian, H Zhu, ...
Nano Energy 2 (5), 1025-1030, 2013
|Graphene drape minimizes the pinning and hysteresis of water drops on nanotextured rough surfaces|
E Singh, AV Thomas, R Mukherjee, X Mi, F Houshmand, Y Peles, Y Shi, ...
ACS nano 7 (4), 3512-3521, 2013
|Superiority of graphene over polymer coatings for prevention of microbially induced corrosion|
A Krishnamurthy, V Gadhamshetty, R Mukherjee, B Natarajan, O Eksik, ...
Scientific reports 5 (1), 1-12, 2015
|Far-infrared reduced graphene oxide as high performance electrodes for supercapacitors|
F Xiang, J Zhong, N Gu, R Mukherjee, IK Oh, N Koratkar, Z Yang
Carbon 75, 201-208, 2014
|Scalable and rapid Far Infrared reduction of graphene oxide for high performance lithium ion batteries|
F Xiang, R Mukherjee, J Zhong, Y Xia, N Gu, Z Yang, N Koratkar
Energy Storage Materials 1, 9-16, 2015
|Rapid macro-scale synthesis of free-standing graphene, high performance, binder-free graphene anode material, and methods of synthesizing the anode material|
R Mukherjee, AV Thomas, N Koratkar, E Singh
US Patent App. 13/966,395, 2014
|Porous graphene network electrodes and an all-carbon lithium ion battery containing the same|
R Mukherjee, N Koratkar, E Singh
US Patent 10,879,534, 2020
|Rechargeable aluminum ion battery|
R Mukherjee, NA Koratkar
US Patent 9,819,220, 2017
|High-performance cathode materials for lithium sulfur batteries from lignosulfonate|
T Simmons, R Mukherjee
US Patent 9,859,561, 2018
|Nano-engineered Silicon Anodes for Lithium-Ion Rechargeable Batteries|
R Krishnan, R Mukherjee, TM Lu, N Koratkar
Nanotechnology for Lithium-Ion Batteries, 43-66, 2012
|Nano-Structured Electrode Concepts for High-Performance Lithium-Ion Batteries|
Rensselaer Polytechnic Institute, 2014