Engineering the Coordination Environment of Ir Single Atoms with Surface Titanium Oxide Amorphization for Superior Chlorine Evolution Reaction

化学 无定形固体 氧化物 纳米团簇 离解(化学) 阳极 析氧 金属 吸附 氧化钛 反应性(心理学) 无机化学 化学工程 光化学 电化学 结晶学 物理化学 有机化学 催化作用 电极 工程类 医学 替代医学 病理
作者
Jiaxian Wang,Long Zhao,Yunjie Zou,Jie Dai,Qian Zheng,Xingyue Zou,Lufa Hu,Wei Hou,Ruizhao Wang,Kaiyuan Wang,Yanbiao Shi,Guangming Zhan,Yancai Yao,Lizhi Zhang
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
被引量:47
标识
DOI:10.1021/jacs.3c13834
摘要

The chlorine evolution reaction (CER) is essential for industrial Cl2 production but strongly relies on the use of dimensionally stable anode (DSA) with high-amount precious Ru/Ir oxide on a Ti substrate. For the purpose of sustainable development, precious metal decrement and performance improvement are highly desirable for the development of CER anodes. Herein, we demonstrate that surface titanium oxide amorphization is crucial to regulate the coordination environment of stabilized Ir single atoms for efficient and durable chlorine evolution of Ti monolithic anodes. Experimental and theoretical results revealed the formation of four-coordinated Ir1O4 and six-coordinated Ir1O6 sites on amorphous and crystalline titanium oxides, respectively. Interestingly, the Ir1O4 sites exhibited a superior CER performance, with a mass activity about 10 and 500 times those of the Ir1O6 counterpart and DSA, respectively. Moreover, the Ir1O4 anode displayed excellent durability for 200 h, far longer than that of its Ir1O6 counterpart (2 h). Mechanism studies showed that the unsaturated Ir in Ir1O4 was the active center for chlorine evolution, which was changed to the top-coordinated O in Ir1O6. This change of active sites greatly affected the adsorption energy of Cl species, thus accounting for their different CER activity. More importantly, the amorphous structure and restrained water dissociation of Ir1O4 synergistically prevent oxygen permeation across the Ti substrate, contributing to its long-term CER stability. This study sheds light on the importance of single-atom coordination structures in the reactivity of catalysts and offers a facile strategy to prepare highly active single-atom CER anodes via surface titanium oxide amorphization.
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