Recent advances in design of electrocatalysts for high‐current‐density water splitting
Electrochemical water splitting technology for producing “green hydrogen” is important for
the global mission of carbon neutrality. Electrocatalysts with decent performance at high …
the global mission of carbon neutrality. Electrocatalysts with decent performance at high …
Recent advances in carbon‐supported noble‐metal electrocatalysts for hydrogen evolution reaction: syntheses, structures, and properties
The electrochemical hydrogen evolution reaction (HER) that converts renewable electricity
into storable hydrogen, a sustainable and clean energy carrier, provides a promising …
into storable hydrogen, a sustainable and clean energy carrier, provides a promising …
[PDF][PDF] Recent advances and future prospects on industrial catalysts for green hydrogen production in alkaline media
S Xu, Q Wu, BA Lu, T Tang, JN Zhang… - Acta Phys.-Chim. Sin, 2023 - whxb.pku.edu.cn
Green hydrogen is obtained by electrochemical water splitting using electricity converted
from renewable energy sources. When green hydrogen undergoes combustion, it produces …
from renewable energy sources. When green hydrogen undergoes combustion, it produces …
Engineering multilevel collaborative catalytic interfaces with multifunctional iron sites enabling high-performance real seawater splitting
Given the abundant reserves of seawater and the scarcity of freshwater, real seawater
electrolysis is a more economically appealing technology for hydrogen production relative to …
electrolysis is a more economically appealing technology for hydrogen production relative to …
Lattice‐Matching formed mesoporous transition metal oxide heterostructures advance water splitting by active Fe–O–Cu bridges
F Hu, D Yu, M Ye, H Wang, Y Hao… - Advanced Energy …, 2022 - Wiley Online Library
Developing efficient bifunctional electrocatalysts toward oxygen/hydrogen evolution
reactions is crucial for electrochemical water splitting toward hydrogen production. The high …
reactions is crucial for electrochemical water splitting toward hydrogen production. The high …
[HTML][HTML] Engineering active sites on hierarchical transition bimetal oxides/sulfides heterostructure array enabling robust overall water splitting
Rational design of the catalysts is impressive for sustainable energy conversion. However,
there is a grand challenge to engineer active sites at the interface. Herein, hierarchical …
there is a grand challenge to engineer active sites at the interface. Herein, hierarchical …
In Situ Regulating Cobalt/Iron Oxide‐Oxyhydroxide Exchange by Dynamic Iron Incorporation for Robust Oxygen Evolution at Large Current Density
D Li, R Xiang, F Yu, J Zeng, Y Zhang… - Advanced …, 2024 - Wiley Online Library
The key dilemma for green hydrogen production via electrocatalytic water splitting is the
high overpotential required for anodic oxygen evolution reaction (OER). Co/Fe‐based …
high overpotential required for anodic oxygen evolution reaction (OER). Co/Fe‐based …
[HTML][HTML] Lamella-heterostructured nanoporous bimetallic iron-cobalt alloy/oxyhydroxide and cerium oxynitride electrodes as stable catalysts for oxygen evolution
SP Zeng, H Shi, TY Dai, Y Liu, Z Wen, GF Han… - Nature …, 2023 - nature.com
Developing robust nonprecious-metal electrocatalysts with high activity towards sluggish
oxygen-evolution reaction is paramount for large-scale hydrogen production via …
oxygen-evolution reaction is paramount for large-scale hydrogen production via …
Engineering active iron sites on nanoporous bimetal phosphide/nitride heterostructure array enabling robust overall water splitting
X Zhou, Y Mo, F Yu, L Liao, X Yong… - Advanced Functional …, 2023 - Wiley Online Library
Alkaline water electrolysis is a commercially viable technology for green H2 production
using renewable electricity from intermittent solar or wind energy, but very few non‐noble …
using renewable electricity from intermittent solar or wind energy, but very few non‐noble …
Tip‐enhanced electric field: a new mechanism promoting mass transfer in oxygen evolution reactions
The slow kinetics of oxygen evolution reaction (OER) causes high power consumption for
electrochemical water splitting. Various strategies have been attempted to accelerate the …
electrochemical water splitting. Various strategies have been attempted to accelerate the …