[HTML][HTML] Electronic structure regulation in the design of low-cost efficient electrocatalysts: From theory to applications
R Cheng, Y Min, H Li, C Fu - Nano Energy, 2023 - Elsevier
Electrocatalysts play a pivotal role in reducing the reaction barriers for key reactions such as
the oxygen reduction reaction (ORR), oxygen evolution reaction (OER), and hydrogen …
the oxygen reduction reaction (ORR), oxygen evolution reaction (OER), and hydrogen …
Strain and surface engineering of multicomponent metallic nanomaterials with unconventional phases
Q Yao, Z Yu, L Li, X Huang - Chemical Reviews, 2023 - ACS Publications
Multicomponent metallic nanomaterials with unconventional phases show great prospects in
electrochemical energy storage and conversion, owing to unique crystal structures and …
electrochemical energy storage and conversion, owing to unique crystal structures and …
Atomically dispersed Cu coordinated Rh metallene arrays for simultaneously electrochemical aniline synthesis and biomass upgrading
Organic electrocatalytic conversion is an essential pathway for the green conversion of low-
cost organic compounds to high-value chemicals, which urgently demands the development …
cost organic compounds to high-value chemicals, which urgently demands the development …
Activating amorphous Ru metallenes through Co integration for enhanced water electrolysis
Designing efficient bifunctional electrocatalysts with excellent activity and robust stability
presents a central challenge for the large‐scale commercialization of water electrolysis …
presents a central challenge for the large‐scale commercialization of water electrolysis …
Oxygen-bridged stabilization of single atomic W on Rh metallenes for robust and efficient pH-universal hydrogen evolution
Highly efficient and durable electrocatalysts are of the utmost importance for the sustainable
generation of clean hydrogen by water electrolysis. Here, we present a report of an …
generation of clean hydrogen by water electrolysis. Here, we present a report of an …
Multisite synergism‐induced electron regulation of high‐entropy alloy metallene for boosting alkaline hydrogen evolution reaction
Designing the high‐entropy alloys (HEAs) electrocatalysts with controllable nanostructures
is of great significance for the development of efficient alkaline hydrogen evolution reaction …
is of great significance for the development of efficient alkaline hydrogen evolution reaction …
Recent progress of in situ/operando characterization techniques for electrocatalytic energy conversion reaction
Z Li, H Yang, W Cheng, L Tian - Chinese Chemical Letters, 2024 - Elsevier
Catalysts can significantly promote the reaction dynamics and are therefore considered
crucial components for achieving high electrochemical energy conversion efficiency …
crucial components for achieving high electrochemical energy conversion efficiency …
Significance of Epitaxial Growth of PtO2 on Rutile TiO2 for Pt/TiO2 Catalysts
TiO2-supported Pt species have been widely applied in numerous critical reactions
involving photo-, thermo-, and electrochemical-catalysis for decades. Manipulation of the …
involving photo-, thermo-, and electrochemical-catalysis for decades. Manipulation of the …
NiFe nanoparticle-encapsulated ultrahigh-oxygen-doped carbon layers as bifunctional electrocatalysts for rechargeable Zn–air batteries
M Liu, Z Liu, W Chen, Z Liu, Z Li, X Pi, Q Du… - Inorganic …, 2023 - ACS Publications
There is an urgent demand for develo** highly efficient bifunctional electrocatalysts with
excellent stability toward the oxygen evolution and reduction reactions (OER and ORR …
excellent stability toward the oxygen evolution and reduction reactions (OER and ORR …
A Long‐Range Disordered RuO2 Catalyst for Highly Efficient Acidic Oxygen Evolution Electrocatalysis
Non‐iridium acid‐stabilized electrocatalysts for oxygen evolution reaction (OER) are crucial
to reducing the cost of proton exchange membrane water electrolyzers (PEMWEs). Here, we …
to reducing the cost of proton exchange membrane water electrolyzers (PEMWEs). Here, we …