Romil Bhandavat
Romil Bhandavat
Unknown affiliation
Verified email at intel.com
Title
Cited by
Cited by
Year
MoS2/Graphene Composite Paper for Sodium-Ion Battery Electrodes
L David, R Bhandavat, G Singh
ACS nano 8 (2), 1759-1770, 2014
10292014
Synthesis of Surface-Functionalized WS2 Nanosheets and Performance as Li-Ion Battery Anodes
R Bhandavat, L David, G Singh
The journal of physical chemistry letters 3 (11), 1523-1530, 2012
3442012
Silicon oxycarbide glass-graphene composite paper electrode for long-cycle lithium-ion batteries
L David, R Bhandavat, U Barrera, G Singh
Nature communications 7 (1), 1-10, 2016
2662016
Stable and efficient Li-ion battery anodes prepared from polymer-derived silicon oxycarbide–carbon nanotube shell/core composites
R Bhandavat, G Singh
The Journal of Physical Chemistry C 117 (23), 11899-11905, 2013
862013
Polymer-derived ceramic functionalized MoS 2 composite paper as a stable lithium-ion battery electrode
L David, R Bhandavat, U Barrera, G Singh
Scientific reports 5 (1), 1-7, 2015
792015
Very high laser-damage threshold of polymer-derived Si (B) CN-carbon nanotube composite coatings
R Bhandavat, A Feldman, C Cromer, J Lehman, G Singh
ACS applied materials & interfaces 5 (7), 2354-2359, 2013
572013
Improved electrochemical capacity of precursor-derived Si (B) CN-carbon nanotube composite as Li-ion battery anode
R Bhandavat, G Singh
ACS applied materials & interfaces 4 (10), 5092-5097, 2012
542012
Synthesis of polymer-derived ceramic Si (B) CN-carbon nanotube composite by microwave-induced interfacial polarization
R Bhandavat, W Kuhn, E Mansfield, J Lehman, G Singh
ACS applied materials & interfaces 4 (1), 11-16, 2012
442012
Very high laser-damage threshold of polymer-derived Si (B) CN-carbon nanotube composite coatings. ACS Appl. Mater Interfaces. 5 (7), 2354–2359 (2013)
R Bhandavat, A Feldman, C Cromer, J Lehman, G Singh
40
Synthesis, characterization, and high temperature stability of Si (B) CN‐coated carbon nanotubes using a boron‐modified poly (ureamethylvinyl) silazane chemistry
R Bhandavat, G Singh
Journal of the American Ceramic Society 95 (5), 1536-1543, 2012
322012
Synthesis of graphene films by rapid heating and quenching at ambient pressures and their electrochemical characterization
L David, R Bhandavat, G Kulkarni, S Pahwa, Z Zhong, G Singh
ACS applied materials & interfaces 5 (3), 546-552, 2013
192013
Polymer-derived ceramics as anode material for rechargeable Li-ion batteries: a review
R Bhandavat, Z Pei, G Singh
Nanomaterials and Energy 1 (6), 324-337, 2012
192012
Boron-modified silazanes for synthesis of SiBNC ceramics
G Singh, R Bhandavat
US Patent 9,453,111, 2016
102016
Polymer-derived SiOC–CNT paper as lithium-ion battery anodes
R Bhandavat, M Cologna, G Singh
Nanomaterials and Energy 1 (1), 57-61, 2012
42012
Correction to Improved Electrochemical Capacity of Precursor-Derived Si (B) CN-Carbon Nanotube Composite as Li-Ion Battery Anode
R Bhandavat, G Singh
ACS Applied Materials & Interfaces 5 (1), 222-224, 2013
22013
Flexible composite electrode high-rate performance lithium-ion batteries
G Singh, L David, R Bhandavat
US Patent 10,553,853, 2020
12020
Molecular precursor derived SiBCN/CNT and SiOC/CNT composite nanowires for energy based applications
R Bhandavat
Kansas State University, 2013
12013
Performance of Silicon Carbonitride Functionalized MoS2 Nanosheets as Lithium-ion Battery Anode
L David, R Bhandavat, U Barrera, G Singh
APS March Meeting Abstracts 2014, C1. 026, 2014
2014
Molecular precursor derived silicon boron carbonitride/carbon nanotube and silicon oxycarbide/carbon nanotube composite nanowires for energy based applications
R Bhandavat
Kansas State University, 2013
2013
Large‐Scale Synthesis of MoS2‐Polymer Derived SiCN Composite Nanosheets
R Bhandavat, L David, U Barrera, G Singh
Advances in Synthesis, Processing, and Applications of Nanostructures …, 2012
2012
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