Properties, mechanisms and advantages of metallic glass for electrocatalysis and HER in water splitting: A review
H 2 is one of the most promising and attractive alternative energy sources for fossil fuels to
solve the current energy crisis and environmental problems. Hydrogen production from …
solve the current energy crisis and environmental problems. Hydrogen production from …
Nonprecious high‐entropy chalcogenide glasses‐based electrocatalysts for efficient and stable acidic oxygen evolution reaction in proton exchange membrane water …
Here, nonprecious high‐entropy chalcogenide glasses (N‐HECGs) consisting of Co, Fe, Ni,
Mo, W, and Te are demonstrated in a first demonstration of acidic oxygen evolution reaction …
Mo, W, and Te are demonstrated in a first demonstration of acidic oxygen evolution reaction …
High entropy alloy: From theoretical evaluation to electrocatalytic activity of hydrogen evolution reaction
The modern technical society aims to generate sustainable and reliable energy resources
motivated by the energy-dense hydrogen (H 2) economy. High entropy alloy (HEA) catalyst …
motivated by the energy-dense hydrogen (H 2) economy. High entropy alloy (HEA) catalyst …
High‐throughput designed and laser‐etched NiFeCrVTi high‐entropy alloys with high catalytic activities and corrosion resistance for hydrogen evolution in seawater
Z Liu, H Li, C Yang, M Jiang, J Zhang, C Fu - Small, 2024 - Wiley Online Library
Electrocatalytic hydrogen evolution from seawater through wind or solar energy is a cost‐
effective way to produce green hydrogen fuel. However, the lack of highly active and anti …
effective way to produce green hydrogen fuel. However, the lack of highly active and anti …
Research Progress of High‐entropy Oxides for Electrocatalytic Oxygen Evolution Reaction
X Zhang, X Wang, X Lv - ChemSusChem, 2024 - Wiley Online Library
Abstract High‐entropy oxides (HEOs), similar to high‐entropy materials (HEMs), have “four‐
core effects”, ie, high‐entropy effect, delayed diffusion effect, lattice distortion effect and …
core effects”, ie, high‐entropy effect, delayed diffusion effect, lattice distortion effect and …
FeNi-LDH@ Ni film modified stainless-steel as self-supported electrodes for efficient and stable overall water splitting in alkaline environments
Water electrolysis is a promising sustainable technology for hydrogen production. To
achieve large-scale commercialization, electrocatalysts must meet specific performance …
achieve large-scale commercialization, electrocatalysts must meet specific performance …
Amorphous‐Crystalline Heterostructured Nanoporous High‐Entropy Alloys for High‐Efficiency pH‐Universal Water Splitting
X Yu, X Gong, H Qiao, X Liu, C Ma, R ** high‐efficiency durable electrocatalysts in wide pH range for water splitting is
significant for environmentally‐friendly synthesis of renewable hydrogen energy. Herein, a …
significant for environmentally‐friendly synthesis of renewable hydrogen energy. Herein, a …
Reactive oxygen species and NOM-induced surface rejection guarantee effective removal of dye pollutants by cobalt-manganese bimetallic oxide loaded ceramic …
D Song, H ** high-efficient, environmental-friendly, stable catalytic membrane is of great
significance for the removal of organic pollutants from natural water. Herein, the aim of this …
significance for the removal of organic pollutants from natural water. Herein, the aim of this …
Crystal‐Phase‐Engineered High‐Entropy Alloy Aerogels for Enhanced Ethylamine Electrosynthesis from Acetonitrile
Crystal‐phase engineering that promotes the rearrangement of active atoms to form new
structural frameworks achieves excellent result in the field of electrocatalysis and optimizes …
structural frameworks achieves excellent result in the field of electrocatalysis and optimizes …
[HTML][HTML] Advancements in The In-Situ Growth of Catalysts for Water Electrolysis: Substrate Considerations, Performance Evaluations, and Future Perspectives
In-situ growth of catalysts for water electrolysis has gained significant advancements
recently, it involves cultivating active electrocatalysts on conductive substrates such as metal …
recently, it involves cultivating active electrocatalysts on conductive substrates such as metal …