Operando time-resolved X-ray absorption spectroscopy reveals the chemical nature enabling highly selective CO2 reduction

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题名:	Operando time-resolved X-ray absorption spectroscopy reveals the chemical nature enabling highly selective CO2 reduction
作者:	Lin, SC (Lin, Sheng-Chih) Chang, CC (Chang, Chun-Chih) Chiu, SY (Chiu, Shih-Yun) Pai, HT (Pai, Hsiao-Tien) Liao, TY (Liao, Tzu-Yu) Hsu, CS (Hsu, Chia-Shuo) Chiang, WH (Chiang, Wei-Hung) Tsai, MK (Tsai, Ming-Kang) Chen, HM (Chen, Hao Ming)
贡献者:	化材系
关键词:	MODE ELECTROCHEMICAL REDUCTION INITIO MOLECULAR-DYNAMICS TOTAL-ENERGY CALCULATIONS CARBON-DIOXIDE CATALYTIC SELECTIVITY ELECTROREDUCTION CU COPPER HYDROGEN NANOCRYSTALS
日期:	2020-07-14
上传时间:	2020-10-30 14:04:41 (UTC+8)
摘要:	Copper electrocatalysts have been shown to selectively reduce carbon dioxide to hydrocarbons. Nevertheless, the absence of a systematic study based on time-resolved spectroscopy renders the functional agent-either metallic or oxidative Copper-for the selectivity still undecidable. Herein, we develop an operando seconds-resolved X-ray absorption spectroscopy to uncover the chemical state evolution of working catalysts. An oxide-derived Copper electrocatalyst is employed as a model catalyst to offer scientific insights into the roles metal states serve in carbon dioxide reduction reaction (CO2RR). Using a potential switching approach, the model catalyst can achieve a steady chemical state of half-Cu(0)-and-half-Cu(I) and selectively produce asymmetric C-2 products - C2H5OH. Furthermore, a theoretical analysis reveals that a surface composed of Cu-Cu(I) ensembles can have dual carbon monoxide molecules coupled asymmetrically, which potentially enhances the catalyst's CO2RR product selectivity toward C-2 products. Our results offer understandings of the fundamental chemical states and insights to the establishment of selective CO2RR. A systematic time-resolved study can provide key insights on selective carbon dioxide electro-reduction. Here, the authors report operando seconds-resolved X-ray absorption spectroscopy to uncover the chemical state evolution of working catalysts in a carbon dioxide electroreduction process.
關聯:	NATURE COMMUNICATIONS 卷冊: 11 期: 1
显示于类别:	[化學工程與材料工程學系暨碩士班] 期刊論文

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