Oxygen electrochemistry in Li-O2 batteries probed by in situ surface-enhanced Raman spectroscopy 被引量：2

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摘要 Surface-enhanced Raman spectroscopy(SERS),as a nondestructive and ultrasensitive single molecular level characterization technique,is a powerful tool to deeply understand the interfacial electrochemistry reaction mechanism involved in energy conversion and storage,especially for oxygen electrochemistry in Li-O2 batteries with unrivaled theoretical energy density.SERS can provide precise spectroscopic identification of the reactants,intermediates and products at the electrode|electrolyte interfaces,independent of their physical states(solid and/or liquid)and crystallinity level.Furthermore,SERS’s power to resolve different isotopes can be exploited to identify the mass transport limitation and reactive sites of the passivated interface.In this review,the application of in situ SERS in studying the oxygen electrochemistry,specifically in aprotic Li-O2 batteries,is summarized.The ideas and concepts covered in this review are also extended to the perspectives of the spectroelectrochemistry in general aprotic metal-gas batteries.

作者 Jiawei Wang Lipo Ma Junyuan Xu Ye Xu Ke Sun Zhangquan Peng

机构地区 Laboratory of Advanced Spectro-electrochemistry and Li-ion Batteries Tianmu Lake Institute of Advanced Energy Storage Technologies Co.Ltd. Department of Chemical Engineering School of Applied Physics and Materials

出处《SusMat》 2021年第3期345-358,共14页 可持续发展材料（英文）

基金 NationalKeyR&DProgramofChina,Grant/Award Number:2016YFB0100100 NationalNatural Science Foundation ofChina,Grant/Award Numbers:21972133,21605136,21825202,92045302,21972055,21733012,21633008 NewtonAdvancedFellowships,Grant/Award Number:NAF/R2/180603。

关键词 in situ SERS isotope labeling oxygen electrochemistry reaction mechanism surface-enhanced Raman spectroscopy

分类号 TM9 [电气工程—电力电子与电力传动]

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