Surface Electrochemistry of Carbon Electrodes and Faradaic Reactions in Capacitive Deionization

Authors
Kang, Jin SooKim, SeoniKang, JihoJoo, HwajooJang, JunghwanJo, KyusikPark, SubinKim, Hyoung-ilYoo, Sung JongYoon, JeyongSung, Yung-EunHatton, T. Alan
Issue Date
2022-09
Publisher
American Chemical Society
Citation
Environmental Science & Technology, v.56, no.17, pp.12602 - 12612
Abstract
Recent advances in electrochemical desalination techniques have paved way for utilization of saline water. In particular, capacitive deionization (CDI) enables removal of salts with high energy efficiency and economic feasibility, while its applicability has been challenged by degradation of carbon electrodes in long-term operations. Herein, we report a thorough investigation on the surface electrochemistry of carbon electrodes and Faradaic reactions that are responsible for stability issues of CDI systems. By using bare and membrane CDI (MCDI) as model systems, we identified various electrochemical reactions of carbon electrodes with water or oxygen, with thermodynamics and kinetics governed by the electrode potential and pH. As a result, a complete overview of the Faradaic reactions taking place in CDI was constructed by tracing the physicochemical changes occurring in CDI and MCDI systems.
Keywords
WATER DESALINATION; XEROGEL ELECTRODES; OXYGEN REDUCTION; REVERSE-OSMOSIS; PERFORMANCE; ENERGY; PH; ELECTROSORPTION; SPECTROSCOPY; DIFFUSIVITY; electrochemistry; desalination; capacitive deionization; carbon; Faradaic reaction
ISSN
0013-936X
URI
https://pubs.kist.re.kr/handle/201004/114598
DOI
10.1021/acs.est.2c03913
Appears in Collections:
KIST Article > 2022
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