Obtaining the High Valence of Ni/Fe Sites in a Heterostructure Induced by Implanting the NiFe-DTO MOF as a Highly Active OER Catalyst

异质结 催化作用 价(化学) 材料科学 化学工程 纳米技术 化学 光电子学 工程类 生物化学 有机化学
作者
Ruobing Li,Lin Gao,Zhiyu Dou,Lili Cui
出处
期刊:ACS Sustainable Chemistry & Engineering [American Chemical Society]
卷期号:12 (49): 17761-17769 被引量:19
标识
DOI:10.1021/acssuschemeng.4c06643
摘要

The oxygen evolution reaction (OER) is a pivotal half-reaction in water electrolysis to generate hydrogen. Currently, the development of efficient OER electrocatalysts is essential to accelerate the reaction process and enhance conversion efficiency. The MOF of NiFe-DTO (NiFe-D) composed of a dithiooxamide (DTO) ligand was constructed using nanosheet-like NiFe-LDH as the precursor and template. Eventually, a NiFe-DTO-derived NiSeS and Fe3Se4 heterostructure electrocatalyst supported on carbon cloth (NiFe-D-Se) was obtained by the subsequent selenization process. The results demonstrate that implanting NiFe-DTO could induce the transition of crystal composition. The optimal NiFe-D-Se catalyst is composed of NiSeS and Fe3Se4 crystals (NiSeS@Fe3Se4), whereas the catalyst (NiFe-Se) derived from NiFe-LDH is made of Ni3Se4 and Fe3Se4. Ascribed to the different composition, the high loading of Ni and Fe with low electronic density is gained in the NiFe-D-Se sample, which are active sites for the OER. In situ EIS test results indicate that NiFe-D-Se is easy to polarize. As a result, the NiSeS and Fe3Se4 heterostructure electrocatalyst exhibits excellent OER performance in 1 M KOH with an overpotential of only 177 mV at 10 mA cm–2 and high TOF and FE values, and the current degradation is only 2.15% and 3.56% after 24 and 120 h I-t test, respectively, which confirms the outperforming performance in comparison with the advanced material reported recently. This work offers a feasible method for fabricating active OER heterostructure electrocatalysts.
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