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界面驱动的氮掺杂碳固定化CoNiS@ReS/CC异质结构中的催化增强作用,用于优化碱性海水分解中的析氢和析氧反应

Interface-Driven Catalytic Enhancements in Nitrogen-Doped Carbon Immobilized CoNiS@ReS/CC Heterostructures for Optimized Hydrogen and Oxygen Evolution in Alkaline Seawater-Splitting.

作者信息

Lu Yanhui, Zhao Zhengqiang, Liu Xiaotong, Yu Xu, Li Wenqiang, Pei Chengang, Park Ho Seok, Kim Jung Kyu, Pang Huan

机构信息

School of Chemistry and Chemical Engineering, Yangzhou University, Yangzhou, Jiangsu, 225002, P. R. China.

Key Laboratory of Function-oriented Porous Materials, College of Chemistry and Chemical Engineering, Luoyang Normal University, Luoyang, 471934, P. R. China.

出版信息

Adv Sci (Weinh). 2025 Feb;12(7):e2413245. doi: 10.1002/advs.202413245. Epub 2024 Dec 24.

DOI:10.1002/advs.202413245
PMID:39716924
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11831512/
Abstract

The rational design of multicomponent heterostructure is an effective strategy to enhance the catalytic activity of electrocatalysts for water and seawater electrolysis in alkaline conditions. Herein, MOF-derived nitrogen-doped carbon/nickel-cobalt sulfides coupled vertically aligned Rhenium disulfide (ReS) on carbon cloth (NC-CoNiS@ReS/CC) are constructed via hydrothermal and activation approaches. Experimental and theoretical analysis demonstrates that the strong interactions between multiple interfaces promote electron redistribution and facilitate water dissociation, thereby optimizing *H adsorption energy for the hydrogen evolution reaction (HER). Meanwhile, the adsorption energies of oxygenated intermediates are balanced to reduce the thermodynamic barrier for the oxygen evolution reaction (OER). Consequently, NC-CoNiS@ReS/CC shows smaller overpotentials of 87 and 253 mV for HER and OER at 10 mA cm, with a lower Tafel slope and R than control samples. Superior catalytic stability is confirmed by cyclic voltammetry (CV) for 1000 cycles and CA test for 56 h. Furthermore, NC-CoNiS@ReS/CC presents exceptional electrocatalytic activity in both alkaline water/seawater electrolytes. Stability assessments reveal that NC-CoNiS@ReS/CC maintains a highly catalytic activity in both water and seawater, owing to the corrosion-resistant properties of the sulfur species at the interface. These findings highlight the importance of designing heterostructure electrocatalysts for clean hydrogen production.

摘要

多组分异质结构的合理设计是提高电催化剂在碱性条件下用于水电解和海水电解催化活性的有效策略。在此,通过水热法和活化法构建了一种碳布负载的MOF衍生氮掺杂碳/镍钴硫化物与垂直排列的二硫化铼(ReS₂)耦合的材料(NC-CoNiS@ReS₂/CC)。实验和理论分析表明,多个界面之间的强相互作用促进了电子重新分布并有利于水的解离,从而优化了析氢反应(HER)的*H吸附能。同时,含氧中间体的吸附能得到平衡,降低了析氧反应(OER)的热力学势垒。因此,NC-CoNiS@ReS₂/CC在10 mA cm⁻²时HER和OER的过电位分别低至87和253 mV,且塔菲尔斜率和电阻均低于对照样品。通过1000次循环伏安法(CV)和56小时的计时安培法(CA)测试证实了其优异的催化稳定性。此外,NC-CoNiS@ReS₂/CC在碱性水/海水电解质中均表现出出色的电催化活性。稳定性评估表明,由于界面处硫物种的耐腐蚀性能,NC-CoNiS@ReS₂/CC在水和海水中均保持高催化活性。这些发现突出了设计用于清洁制氢的异质结构电催化剂的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f0b8/11831512/aa721ff1d57b/ADVS-12-2413245-g002.jpg
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