电催化剂
材料科学
格子(音乐)
氧气
化学物理
氢
析氧
无机化学
氧还原
结晶学
化学工程
调解
催化作用
电子结构
物理化学
纳米技术
化学
作者
Ting S. Li,Xiao Hu Wang,Xiao Hui Chen,C.Y. Yang,Qi Xiao,Hong Qun Luo,Nian Bing Li
标识
DOI:10.1016/j.gee.2026.03.026
摘要
The lattice oxygen-mediated mechanism (LOM) offers a promising pathway to break the scaling relations limit of the conventional adsorbate evolution mechanism (AEM), presenting a general strategy for enhancing the kinetics of not only the oxygen evolution reaction (OER) but also a wide range of other electrooxidation reactions. This is because the LOM can activate electrophilic oxygen species, which are capable of efficiently attacking chemical bonds. However, the electronic structure tailored for activating lattice oxygen often renders the catalyst surface incompatible with the adsorption/desorption of hydrogen intermediates, posing a fundamental dilemma for developing versatile electrocatalysts. This study constructs an all-in-one electrocatalyst using an in-situ corrosion (CoRu-Cu 2 O/CF). The dopant of Ru activates lattice oxygen, leading to the transformations of the OER mechanism from AEM to LOM, which is boosting OER. Simultaneously, the LOM-based catalyst demonstrates notable advantages in other electrooxidation of 5-hydroxymethylfurfural, urea, methanol, hydrazine, and ammonia. And the introduction of Ru can enhance the adsorption capability of H intermediates, benefiting the HER. This work presents a strategy that successfully achieves compatibility between the LOM mechanism and H adsorption/desorption equilibrium, offering a scalable approach in the water electrolysis, direct methanol fuel cells, direct ammonia fuel cells, and the electrosynthesis or degradation of organic compounds. CoRu-Cu 2 O/CF realizes the compatibility of lattice oxygen mediated mechanism (LOM) and H adsorption/desorption equilibrium and offers a scalable strategy and universal mechanism that can enhance the performance and cost efficiency of electrooxidation and HER. • The electrocatalysts are prepared using the corrosion engineering. • The doped of Ru in lattice realizes the conversion of the OER reaction pathway. • The catalyst can equilibrate H adsorption/desorption due to Ru-Co coexistence. • The CoRu-Cu 2 O shows excellent catalytic performance of electrooxidation and HER. • This work provides a simple catalyst preparation method and universal mechanism.
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