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In-situ study for the elastic structure evolutions of three-dimensional Ir-O framework during the oxygen evolution reaction in acid

by Hong, Enna , Li, Mengxian , Yang, Chunzhen , Zeng, Huiyan , Wang, Chao , Li, Jiong , Qi, Jun , Gu, Long , Zhong, Xinyu , Liu, Zhongfei , Chen, Jiajun

in Absorption spectroscopy / Atomic/Molecular Structure and Spectra / Biomedicine / Biotechnology / Catalysts / Chemistry and Materials Science / Condensed Matter Physics / Degradation / Electrocatalysts / Electrochemistry / Evolution / Materials Science / Nanotechnology / Oxidation / Oxygen evolution reactions / Raman spectroscopy / Research Article / Rotating disks / Spectrum analysis / X ray absorption / X-ray absorption spectroscopy / X-ray diffraction

2023

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In-situ study for the elastic structure evolutions of three-dimensional Ir-O framework during the oxygen evolution reaction in acid

by Hong, Enna , Li, Mengxian , Yang, Chunzhen , Zeng, Huiyan , Wang, Chao , Li, Jiong , Qi, Jun , Gu, Long , Zhong, Xinyu , Liu, Zhongfei , Chen, Jiajun

2023

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In-situ study for the elastic structure evolutions of three-dimensional Ir-O framework during the oxygen evolution reaction in acid

by Hong, Enna , Li, Mengxian , Yang, Chunzhen , Zeng, Huiyan , Wang, Chao , Li, Jiong , Qi, Jun , Gu, Long , Zhong, Xinyu , Liu, Zhongfei , Chen, Jiajun

2023

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Journal Article

In-situ study for the elastic structure evolutions of three-dimensional Ir-O framework during the oxygen evolution reaction in acid

Hong, Enna,

Li, Mengxian,

Yang, Chunzhen,

Zeng, Huiyan,

Wang, Chao,

Li, Jiong,

Qi, Jun,

Gu, Long,

Zhong, Xinyu,

Liu, Zhongfei,

Chen, Jiajun

2023

Overview

Understanding the dynamic structural and chemical evolutions at the catalyst–electrolyte interfaces is crucial for the development of active and stable electrocatalysts. In this work, β-Li 2 IrO 3 is employed as a model catalyst for the oxygen evolution reaction (OER). Its elastic three-dimensional Ir-O framework enables us to investigate the Li + cation dissolution-induced structure evolutions and the formation mechanism of amorphous IrO x species. Electrochemical measurements by rotating ring disk electrode (RRDE) reveal that up to 60% of the measured OER current can be ascribed to catalyst degradation. A series of in-situ X-ray diffraction spectroscopy (XRD), X-ray absorption spectroscopy (XAS), and Raman spectroscopy are conducted. Structure vibration is observed with oxidation states of Ir being reduced abnormally during OER at high potentials. It’s hypothesized that the reversible proton intercalations are responsible for the Ir turn-over mechanism. Results of this work demonstrate a stable and elastic iridate structure and reveal the initial catalyst degradation behaviors during OER in acid media.

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Publisher

Tsinghua University Press

Subject

Absorption spectroscopy

/ Atomic/Molecular Structure and Spectra

/ Biomedicine

/ Biotechnology

/ Catalysts

/ Chemistry and Materials Science

/ Condensed Matter Physics