In operando imaging of self-catalyzed formaldehyde burst in methanol oxidation reactions under open circuit conditionsElectronic supplementary information (ESI) available: Experimental details, data analysis, and descriptions of movies. See DOI: 10.1039/c7sc05347a

We employ a surface plasmon resonance imaging (SPRi) technique to monitor the in operando process of formaldehyde (HCHO) production during methanol oxidation with high spatial and temporal resolutions. While common wisdom suggests HCHO is generated as an intermediate during continuous electron trans...

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Main Authors Yuan, Liang, Li, Meng, Yuan, Tinglian, Fang, Yimin, Wang, Wei
Format Journal Article
LanguageEnglish
Published 28.03.2018
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Abstract We employ a surface plasmon resonance imaging (SPRi) technique to monitor the in operando process of formaldehyde (HCHO) production during methanol oxidation with high spatial and temporal resolutions. While common wisdom suggests HCHO is generated as an intermediate during continuous electron transfer towards CO 2 , we find that the majority of HCHO is produced via self-catalyzed chemical and electrochemical reactions under open-circuit conditions, which lead to an unprecedented HCHO burst immediately after withdrawal of external potential. Because open-circuit conditions better represent the operating environments of practical direct methanol fuel cells (DMFCs), this work uncovers a hidden pathway of HCHO accumulation by adopting a quantitative and in operando SPRi technique for the first time. These theoretical and technical advances are anticipated to help the fundamental understanding of the comprehensive mechanism of methanol oxidation with implications for improving the performance of DMFCs. A wave-like HCHO burst is in situ observed during electro-oxidation of methanol on Pt under open circuit conditions by SPR imaging.
AbstractList We employ a surface plasmon resonance imaging (SPRi) technique to monitor the in operando process of formaldehyde (HCHO) production during methanol oxidation with high spatial and temporal resolutions. While common wisdom suggests HCHO is generated as an intermediate during continuous electron transfer towards CO 2 , we find that the majority of HCHO is produced via self-catalyzed chemical and electrochemical reactions under open-circuit conditions, which lead to an unprecedented HCHO burst immediately after withdrawal of external potential. Because open-circuit conditions better represent the operating environments of practical direct methanol fuel cells (DMFCs), this work uncovers a hidden pathway of HCHO accumulation by adopting a quantitative and in operando SPRi technique for the first time. These theoretical and technical advances are anticipated to help the fundamental understanding of the comprehensive mechanism of methanol oxidation with implications for improving the performance of DMFCs. A wave-like HCHO burst is in situ observed during electro-oxidation of methanol on Pt under open circuit conditions by SPR imaging.
Author Wang, Wei
Li, Meng
Yuan, Tinglian
Fang, Yimin
Yuan, Liang
AuthorAffiliation State Key Laboratory of Analytical Chemistry for Life Science
Nanjing University
School of Chemistry and Chemical Engineering
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Electronic supplementary information (ESI) available: Experimental details, data analysis, and descriptions of movies. See DOI
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Title In operando imaging of self-catalyzed formaldehyde burst in methanol oxidation reactions under open circuit conditionsElectronic supplementary information (ESI) available: Experimental details, data analysis, and descriptions of movies. See DOI: 10.1039/c7sc05347a
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