The in situ phosphorization inducing oxygen vacancies in the core–shell structured NiFe oxides boosts the electrocatalytic activity for the oxygen evolution reaction
Weiji Dai,
Fengyu Hu,
Xuanyu Yang
et al.
Abstract:The core shell-structured Px-NiO@Fe2O3 with abundant oxygen vacancies was prepared via the facile annealing treatment of Ni and P species decorated MIL(Fe) MOFs as a promising electrocatalyst for the oxygen evolution reaction.
“…In contrast, hydrogen energy emerges as a clean and renewable energy source, presenting a viable solution for replacing fossil fuels. 4–7 Consequently, water electrolysis is garnering growing research interest for its potential application in large-scale hydrogen production. It highlights the critical need for the development of highly efficient and low cost catalysts to promote the hydrogen evolution reaction (HER).…”
A Cu7Co alloy-decorated carbon material derived from coconut shell waste was developed as a potent and cost-effective electrocatalyst for the hydrogen evolution reaction (HER), exhibiting exceptional performance and stability in alkaline solutions.
“…In contrast, hydrogen energy emerges as a clean and renewable energy source, presenting a viable solution for replacing fossil fuels. 4–7 Consequently, water electrolysis is garnering growing research interest for its potential application in large-scale hydrogen production. It highlights the critical need for the development of highly efficient and low cost catalysts to promote the hydrogen evolution reaction (HER).…”
A Cu7Co alloy-decorated carbon material derived from coconut shell waste was developed as a potent and cost-effective electrocatalyst for the hydrogen evolution reaction (HER), exhibiting exceptional performance and stability in alkaline solutions.
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