Regulative Electronic States Around Ruthenium/Ruthenium Disulphide Heterointerfaces for Efficient Water Splitting in Acidic Media

Overview

Journal Angew Chem Int Ed Engl

Specialty Chemistry

Date 2021 Feb 26

PMID 33634585

Citations 6

Authors

Jiawei Zhu

Yao Guo

Fang Liu

Hanwen Xu

Lei Gong

Wenjie Shi

Ding Chen

Pengyan Wang

Yue Yang

Chengtian Zhang

Jinsong Wu

Jiahuan Luo

Shichun Mu

Affiliations

Soon will be listed here.

Abstract

Theoretical calculations unveil the charge redistribution over abundant interfaces and the enhanced electronic states of Ru/RuS heterostructure. The resulting surface electron-deficient Ru sites display optimized adsorption behavior toward diverse reaction intermediates, thereby reducing the thermodynamic energy barriers. Experimentally, for the first time the laminar Ru/RuS heterostructure is rationally engineered by virtue of the synchronous reduction and sulfurization under eutectic salt system. Impressively, it exhibits extremely high catalytic activity for both OER (201 mV @ 10 mA cm ) and HER (45 mV @ 10 mA cm ) in acidic media due to favorable kinetics and excellent specific activity, consequently leading to a terrific performance in acidic overall water splitting devices (1.501 V @ 10 mA cm ). The in-depth insight into the internal activity origin of interfacial effect could offer precise guidance for the rational establishment of hybrid interfaces.

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