Chinese Journal of Applied Chemistry ›› 2023, Vol. 40 ›› Issue (3): 317-328.DOI: 10.19894/j.issn.1000-0518.220184

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A New Hyphenated Technique of in Situ Electrochemical NMR and the Application Progress

Xiao-Ping ZHANG(), Si-Yue ZHANG, Ming-Chang WANG, Yu-Tong ZHANG, Sha-Lin MIAO, Yu WANG, Wei SUN()   

  1. College of Chemistry and Chemical Engineering,Key Lab of Functional Materials and Photoelectrochemistry of Haikou,Hainan Normal University,Haikou 571158,China
  • Received:2022-05-18 Accepted:2022-10-12 Published:2023-03-01 Online:2023-03-27
  • Contact: Xiao-Ping ZHANG,Wei SUN
  • About author:swyy26@hotmail.com
    25478885@qq.com
  • Supported by:
    the National Natural Science Foundation of China Youth Science Foundation Project(22102043);Hainan Provincial Natural Science Foundation of High Level-talent Project(220RC594)

Abstract:

The microscopically dynamic mechanism of electrochemical reaction on electrode-surfaces fails to uncover by isolated traditional electrochemical method. Nuclear magnetic resonance(NMR) technology provides the message of sample's chemical shift and the tiny split produced by J coupling at a molecular level, it can be easier to identify isomer,molecular construct and electronic change. Hence, in situ electrochemical NMR hyphenated technique (EC-NMR technique) permits to monitor the reaction pathway and dynamic mechanism of the electrochemical reactions nondestructively at a molecular level. It seems to be more performing technique to reveal the reaction mechanism, structure-function relationship, and to discover unstable chemical intermediates which the ex-situ technique will never be. However, for the incompatibility between electrochemical cells and NMR, the study and application of the in situ EC-NMR technique is relatively lack. In order to understand the new technique for much more people, the article explains the development aboard and at home of the EC-NMR technology, working principle, challenge, and application which in electrochemical catalysis, the reaction mechanisms, fuel cell, and medication research. Future key issues of EC-NMR technology are also predicted.

Key words: In situ electrochemical cell, Nuclear magnetic resonance, Electrochemistry-NMR technique

CLC Number: