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Greesh Kumar
Greesh Kumar
Senior Research fellow at INST Mohali, India
Verified email at inst.ac.in
Title
Cited by
Cited by
Year
Polyaniline based hybrid bionanocomposites with enhanced visible light photocatalytic activity and antifungal activity
N Ahmad, S Sultana, G Kumar, M Zuhaib, S Sabir, MZ Khan
Journal of Environmental Chemical Engineering 7 (1), 102804, 2019
462019
Electrochemical Growth and Formation Mechanism of Cu2Se/CoSe2-Based Bifunctional Electrocatalyst: A Strategy for the Development of Efficient Material …
M Das, G Kumar, RS Dey
ACS Applied Energy Materials 5 (4), 3915-3925, 2022
312022
Dual Active Sites in Triazine-Based Covalent Organic Polymeric Framework Promoting Oxygen Reduction Reaction
G Kumar, T Boruah, SK Das, S Mondal, RS Dey
Chemical Communications, 1359-7345, 2022
26*2022
A novel chemical approach for synthesizing highly porous graphene analogue and its composite with Ag nanoparticles for efficient electrochemical oxygen reduction
SK Das, S Chatterjee, A Banerjee, G Kumar, AK Patra, RS Dey, AJ Pal, ...
Chemical Engineering Journal 451, 138766, 2023
132023
Mechanistic insight into a Co-based metal–organic framework as an efficient oxygen electrocatalyst via an in situ FT-IR study
G Kumar, R Haldar, M Shanmugam, RS Dey
Journal of Materials Chemistry A 11 (48), 26508-26518, 2023
122023
Coordination engineering of dual Co, Ni active sites in N-doped carbon fostering reversible oxygen electrocatalysis
G Kumar, RS Dey
Inorganic Chemistry 62 (33), 13519-13529, 2023
102023
Pd “Kills Two Birds with One Stone” for the Synthesis of Catalyst: Dual Active Sites of Pd Triggers the Kinetics of O2 Electrocatalysis
G Kumar, SK Das, C Nayak, RS Dey
Small 20 (9), 2307110, 2024
92024
An interfacially stacked covalent porous polymer on graphene favors electronic mobility: ensuring accelerated oxygen reduction reaction kinetics by an in situ study
G Kumar, SK Das, EE Siddharthan, A Biswas, S Bhardwaj, M Das, ...
Journal of Materials Chemistry A 11 (35), 18740-18754, 2023
82023
A 2D covalent organic framework as a metal-free electrode towards electrochemical oxygen reduction reaction
SK Das, G Kumar, M Das, RS Dey
Materials Today: Proceedings 57, 228-233, 2022
72022
Electrochemical oxygen activation driven by enamine-keto push-pull interactions in triazole-based covalent organic polymers
S Samui, G Kumar, TRK Rana, RS Dey
Chemical Communications, 2024
2024
Donor–acceptor covalent organic frameworks propel the oxygen reduction reaction with push–pull dynamics
G Kumar, SK Das, TRK Rana, S Samui, L Billon, RS Dey
Journal of Materials Chemistry A 12 (41), 28085-28094, 2024
2024
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