It is critical to synthesize high-efficiency electrocatalysts to boost the performance of water splitting to meet the requirements of industrial applications.Metal-organic frameworks(MOFs)can function as ideal molecular platforms for the design of highly reactive transition metal phosphides(TMPs),a kind of can-didates for high-efficiently electrocatalytic water splitting.The intrinsic activity of the electrocatalysts can be greatly improved via modulating the electronic structure of the catalytic center through the MOF precursors/templates.Moreover,the carbon layer converted in-situ by the organic ligands can not only protect the TMPs from being degraded in the harsh electrochemical environments,but also avoid agglomeration of the catalysts,thereby promoting their activities and stabilities.Furthermore,heteroatom-containing ligands can incorporate N,S or P,etc.atoms into the carbon matrixes after con-version,regulating the coordination microenvironments of the active centers as well as their electronic structures.In this review,we first summarized the latest developments in MOF-derived TMPs by the unique advantages in metal,organic ligand,and morphology regulations for electrocatalytic water split-ting.Secondly,we concluded the critical scientific issues currently facing for designing state-of-the-art TMP-based electrocatalysts.Finally,we presented an outlook on this research area,encompassing elec-trocatalyst construction,catalytic mechanism research,etc.

Li-Ming Cao;Jia Zhang;Li-Wen Ding;Zi-Yi Du;Chun-Ting He

Key Laboratory of Functional Small Molecules for Ministry of Education,College of Chemistry and Chemical Engineering,Jiangxi Normal University,Nanchang 330022,Jiangxi,China;Key Laboratory for Green Chemistry of Jiangxi Province,Nanchang 330022,Jiangxi,China

能源化学

[1]Li-Ming Cao;Jia Zhang;Li-Wen Ding;Zi-Yi Du;Chun-Ting He-.Metal-organic frameworks derived transition metal phosphides for electrocatalytic water splitting)[J].能源化学,2022(05):494-520

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