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Electrochemical water splitting by a bidirectional electrocatalyst
S. K.Tarik Aziz
, Mahendra Awasthi
, Somnath Guria
, Mayuri Umekar
, Imran Karajagi
, S. K. Riyajuddin
, K. V.R. Siddhartha
, Abhishek Saini
, Ajay Potbhare
, Ratiram G. Chaudhary
, Vikram Vishal
, Prakash C. Ghosh
, Arnab Dutta
Indian Institute of Technology Bombay
S.K. Porwal College
Institute of Nano Science and Technology
Research output
:
Contribution to journal
›
Article
›
peer-review
14
Scopus citations
Overview
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Keyphrases
Electrochemical Water Splitting
100%
Bismuth Oxide
100%
Bidirectional Electrocatalysts
100%
Heterostructure
50%
Oxygen Evolution Reaction
50%
Energy Storage Technology
50%
Electrochemical Cell
50%
Overall Water Splitting
50%
Future Energy
50%
Reduced Graphene Oxide
50%
Dopant
50%
Energy Conversion Technologies
50%
Cell Assembly
50%
Electrocatalytic Hydrogen Evolution Reaction
50%
Catalyst Preparation
50%
Efficient Energy Storage
50%
Efficient Energy Conversion
50%
Energy Infrastructure
50%
Janus Catalyst
50%
Simultaneous Hydrogen Evolution
50%
Alkaline Water
50%
Water Splitting Devices
50%
Electrocatalytic Oxygen Evolution Reaction
50%
Material Science
Oxygen Evolution
100%
Hydrogen Evolution
100%
Water Splitting
100%
Electrocatalysts
100%
Heterojunction
50%
Reduced Graphene Oxide
50%
Doping (Additives)
50%
Electrochemical Cell
50%
Cerium Oxide
50%
Engineering
Electrocatalyst
100%
Water Splitting
100%
Oxygen Evolution Reaction
50%
Hydrogen Evolution Reaction
50%
Future Energy
50%
Infrastructure
50%
Energy Storage and Conversion
50%
Dopants
50%
Reduced Graphene Oxide
50%
Polycrystalline
50%
Heterojunctions
50%
Chemistry
Electrocatalyst
100%
Hydrogen
100%
Doping Material
50%
Energy Storage
50%
Electrochemical Cell
50%
Catalyst Preparation
50%
Graphene Oxide
50%