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Chanderpratap Singh
Chanderpratap Singh
Postdoc University of Szeged
在 szte.hu 的电子邮件经过验证
标题
引用次数
引用次数
年份
Active-site modulation in an Fe-porphyrin-based metal–organic framework through ligand axial coordination: accelerating electrocatalysis and charge-transport kinetics
I Liberman, R Shimoni, R Ifraemov, I Rozenberg, C Singh, I Hod
Journal of the American Chemical Society 142 (4), 1933-1940, 2020
1602020
Role of graphite precursor and sodium nitrate in graphite oxide synthesis
DR Chowdhury, C Singh, A Paul
RSC advances 4 (29), 15138-15145, 2014
1242014
Metal–organic framework derived nanomaterials for electrocatalysis: recent developments for CO2 and N2 reduction
C Singh, S Mukhopadhyay, I Hod
Nano Convergence 8 (1), 1, 2021
702021
Redox-active, pyrene-based pristine porous organic polymers for efficient energy storage with exceptional cyclic stability
S Bandyopadhyay, C Singh, P Jash, MDW Hussain, A Paul, A Patra
Chemical Communications 54 (50), 6796-6799, 2018
702018
Physisorbed hydroquinone on activated charcoal as a supercapacitor: an application of proton-coupled electron transfer
C Singh, A Paul
The Journal of Physical Chemistry C 119 (21), 11382-11390, 2015
702015
Unraveling the Mechanisms of Electrocatalytic Oxygenation and Dehydrogenation of Organic Molecules to Value‐Added Chemicals Over a Ni–Fe Oxide Catalyst
B Mondal, N Karjule, C Singh, R Shimoni, M Volokh, I Hod, M Shalom
Advanced Energy Materials 11 (37), 2101858, 2021
682021
W Doping in Ni12P5 as a Platform to Enhance Overall Electrochemical Water Splitting
S Ghosh, SR Kadam, SL Kolatkar, A Neyman, C Singh, AN Enyashin, ...
ACS applied materials & interfaces 14 (1), 581-589, 2021
442021
Pristine versus pyrolyzed metal–organic framework-based oxygen evolution electrocatalysts: evaluation of intrinsic activity using electrochemical impedance spectroscopy
C Singh, I Liberman, R Shimoni, R Ifraemov, I Hod
The Journal of Physical Chemistry Letters 10 (13), 3630-3636, 2019
392019
Carbon nitride‐based photoanode with enhanced photostability and water oxidation kinetics
N Karjule, C Singh, J Barrio, J Tzadikov, I Liberman, M Volokh, ...
Advanced Functional Materials 31 (25), 2101724, 2021
372021
Deciphering the incredible supercapacitor performance of conducting biordered ultramicroporous graphitic carbon
P Mehra, C Singh, I Cherian, A Giri, A Paul
ACS Applied Energy Materials 4 (5), 4416-4427, 2021
312021
Highly conducting reduced graphene synthesis via low temperature chemically assisted exfoliation and energy storage application
C Singh, AK Mishra, A Paul
Journal of Materials Chemistry A 3 (36), 18557-18563, 2015
302015
Uniform spheroidal nanoassemblies of magnetite using Tween surfactants: influence of surfactant structure on the morphology and electrochemical performance
Q Maqbool, C Singh, A Paul, A Srivastava
Journal of Materials Chemistry C 3 (7), 1610-1618, 2015
272015
Nano “Koosh Balls” of Mesoporous MnO2: Improved Supercapacitor Performance through Superior Ion Transport
Q Maqbool, C Singh, P Jash, A Paul, A Srivastava
Chemistry–A European Journal 23 (17), 4216-4226, 2017
242017
Proton conduction through oxygen functionalized few-layer graphene
C Singh, S Nikhil, A Jana, AK Mishra, A Paul
Chemical Communications 52 (85), 12661-12664, 2016
242016
Immense microporous carbon@ hydroquinone metamorphosed from nonporous carbon as a supercapacitor with remarkable energy density and cyclic stability
C Singh, A Paul
ACS Sustainable Chemistry & Engineering 6 (9), 11367-11379, 2018
192018
Metal-Organic Frameworks as a Heterogeneous Platform for (Photo)-Electrocatalytic CO2 Reduction
I Hod, R Shimoni, I Liberman, R Ifraemov, W He, C Singh
Proceedings of nanoGe Fall Meeting19 (NFM19), 2019
2019
Carbon Based Materials for Energy Storage Application: Improving the Science of Energy
CP Singh
Indian Institute of Science Education and Research Bhopal, 2017
2017
Supplementary Information for Redox-active pyrene-based pristine porous organic polymers for efficient energy storage with exceptional cyclic stability
S Bandyopadhyay, C Singh, A Paul, A Patra
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