Jagjit Nanda
Jagjit Nanda
Oak Ridge National Laboratory, Ford Motor Company, Los Alamos National Laboratory, Stanford
Verified email at ornl.gov
Cited by
Cited by
Single-exciton optical gain in semiconductor nanocrystals
VI Klimov, SA Ivanov, J Nanda, M Achermann, I Bezel, JA McGuire, ...
Nature 447 (7143), 441-446, 2007
Synthesis and characterization of 2D molybdenum carbide (MXene)
J Halim, S Kota, MR Lukatskaya, M Naguib, MQ Zhao, EJ Moon, J Pitock, ...
Advanced Functional Materials 26 (18), 3118-3127, 2016
Type-II core/shell CdS/ZnSe nanocrystals: Synthesis, electronic structures, and spectroscopic properties
SA Ivanov, A Piryatinski, J Nanda, S Tretiak, KR Zavadil, WO Wallace, ...
Journal of the American Chemical Society 129 (38), 11708-11719, 2007
Size-selected zinc sulfide nanocrystallites: synthesis, structure, and optical studies
J Nanda, S Sapra, DD Sarma, N Chandrasekharan, G Hodes
Chemistry of Materials 12 (4), 1018-1024, 2000
Enhanced thermal conductivity and viscosity of copper nanoparticles in ethylene glycol nanofluid
J Garg, B Poudel, M Chiesa, JB Gordon, JJ Ma, JB Wang, ZF Ren, ...
Journal of Applied Physics 103, 074301, 2008
Large-scale delamination of multi-layers transition metal carbides and carbonitrides “MXenes”
M Naguib, RR Unocic, BL Armstrong, J Nanda
Dalton transactions 44 (20), 9353-9358, 2015
Characterizing the Li–Li7La3Zr2O12 interface stability and kinetics as a function of temperature and current density
A Sharafi, HM Meyer, J Nanda, J Wolfenstine, J Sakamoto
Journal of Power Sources 302, 135-139, 2016
Effect of the thiol− thiolate equilibrium on the photophysical properties of aqueous CdSe/ZnS nanocrystal quantum dots
S Jeong, M Achermann, J Nanda, S Ivanov, VI Klimov, JA Hollingsworth
Journal of the American Chemical Society 127 (29), 10126-10127, 2005
Light amplification using inverted core/shell nanocrystals: towards lasing in the single-exciton regime
SA Ivanov, J Nanda, A Piryatinski, M Achermann, LP Balet, IV Bezel, ...
The Journal of Physical Chemistry B 108 (30), 10625-10630, 2004
Electrochemical and rate performance study of high-voltage lithium-rich composition: Li1. 2Mn0. 525Ni0. 175Co0. 1O2
SK Martha, J Nanda, GM Veith, NJ Dudney
Journal of Power Sources 199, 220-226, 2012
Photoelectron spectroscopic study of CdS nanocrystallites
J Nanda, BA Kuruvilla, DD Sarma
Physical Review B 59 (11), 7473, 1999
Atomically localized plasmon enhancement in monolayer graphene
W Zhou, J Lee, J Nanda, ST Pantelides, SJ Pennycook, JC Idrobo
Nature nanotechnology 7 (3), 161-165, 2012
Impact of air exposure and surface chemistry on Li–Li 7 La 3 Zr 2 O 12 interfacial resistance
A Sharafi, S Yu, M Naguib, M Lee, C Ma, HM Meyer, J Nanda, M Chi, ...
Journal of Materials Chemistry A 5 (26), 13475-13487, 2017
Nanoscale morphological and chemical changes of high voltage lithium–manganese rich NMC composite cathodes with cycling
F Yang, Y Liu, SK Martha, Z Wu, JC Andrews, GE Ice, P Pianetta, J Nanda
Nano letters 14 (8), 4334-4341, 2014
Surface studies of high voltage lithium rich composition: Li1. 2Mn0. 525Ni0. 175Co0. 1O2
SK Martha, J Nanda, GM Veith, NJ Dudney
Journal of Power Sources 216, 179-186, 2012
Influence of lithium salts on the discharge chemistry of Li–air cells
GM Veith, J Nanda, LH Delmau, NJ Dudney
The journal of physical chemistry letters 3 (10), 1242-1247, 2012
Solid Electrolyte Coated High Voltage Layered-Layered Lithium-rich Composite Cathode: Li1. 2Mn0. 525Ni0. 175Co0. 1O2
SK Martha, J Nanda, Y Kim, R Unocic, S Pannala, N Dudney
J. Mater. Chem. A 1, 5587-95, 2013
Spectroscopic Characterization of Solid Discharge Products in Li–Air Cells with Aprotic Carbonate Electrolytes
GM Veith, NJ Dudney, J Howe, J Nanda
The Journal of Physical Chemistry C, 2011
Two‐Dimensional Nb‐Based M4C3 Solid Solutions (MXenes)
J Yang, M Naguib, M Ghidiu, LM Pan, J Gu, J Nanda, J Halim, Y Gogotsi, ...
Journal of the American Ceramic Society 99 (2), 660-666, 2016
Artificial solid electrolyte interphase to address the electrochemical degradation of silicon electrodes
J Li, NJ Dudney, J Nanda, C Liang
ACS applied materials & interfaces 6 (13), 10083-10088, 2014
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