Revealing the nontrivial topological surface states of catalysts for effective photochemical carbon dioxide conversion

Topological semimetals with protected surface states mark a new paradigm of research beyond the early landmarks of band-structure engineering, allowing fabrication of efficient catalyst to harness the rich metallic surface states to activate specific chemical processes. Herein, we demonstrate a faci...

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Veröffentlicht in:	arXiv.org 2024-08
Hauptverfasser:	Wang, Kangwang, Li, Longfu, Yu, Peifeng, Tang, Nannan, Zeng, Lingyong, Li, Kuan, Zhang, Chao, Chen, Rui, Zaichen Xiang, Wang, Huichao, Cai, Yongqing, Yan, Kai, Luo, Huixia
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Sprache:	eng
Schlagworte:	Carbon dioxide Carbon monoxide Catalysts Chemical reactions Chemical reduction Chemical synthesis Solid phases Topology
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creator	Wang, Kangwang Li, Longfu Yu, Peifeng Tang, Nannan Zeng, Lingyong Li, Kuan Zhang, Chao Chen, Rui Zaichen Xiang Wang, Huichao Cai, Yongqing Yan, Kai Luo, Huixia
description	Topological semimetals with protected surface states mark a new paradigm of research beyond the early landmarks of band-structure engineering, allowing fabrication of efficient catalyst to harness the rich metallic surface states to activate specific chemical processes. Herein, we demonstrate a facile solid-phase method for in-situ doping of Ir at the Os sites in the Os3Sn7, an alloy with topological states, which significantly improves the photocatalytic performance for the reduction of CO2 to CO and CH4. Experimental evidence combined with theoretical calculations reveal that the nontrivial topological surface states greatly accelerate charge-separation/electron-enrichment and adsorption/activation of CO2 molecules, rendering highly efficient reaction channels to stimulate the formation of COOH and CO, as well CHO*. This work shows the promise of achieving high photocatalytic performances with synthesizing topological catalysts and provides hints on the design of novel topological catalysts with superior photoactivity towards the CO2 reduction reaction.
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subjects	Carbon dioxide Carbon monoxide Catalysts Chemical reactions Chemical reduction Chemical synthesis Solid phases Topology
title	Revealing the nontrivial topological surface states of catalysts for effective photochemical carbon dioxide conversion
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