Novel hybrid capacitive deionization constructed by a redox-active covalent organic framework and its derived porous carbon for highly efficient desalination

Capacitive deionization (CDI) is a prospective cost-efficient technology for ion removal from brackish water. The development and design of new electrode materials with reasonable structures is of special importance for high-performance CDI. Herein, a redox-active covalent organic framework (COF) wa...

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Bibliographic Details
Published in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2019, Vol.7 (44), p.2535-25313
Main Authors: Li, Yuquan, Ding, Zibiao, Zhang, Xinlu, Li, Jingliang, Liu, Xinjuan, Lu, Ting, Yao, Yefeng, Pan, Likun
Format: Article
Language:English
Subjects:
Brackish water
Capacitance
Carbon
Deionization
Desalination
Electrode materials
Electrodes
Porosity
Sodium chloride
Surface area
Water treatment
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Summary:Capacitive deionization (CDI) is a prospective cost-efficient technology for ion removal from brackish water. The development and design of new electrode materials with reasonable structures is of special importance for high-performance CDI. Herein, a redox-active covalent organic framework (COF) was first introduced and demonstrated as a novel faradaic cathode material for hybrid CDI (HCDI) applications. Due to the high specific surface area and orderly distribution of the redox unit, COF presented high capacitance of 170.9 F g −1 and typical pseudocapacitive characteristics. Moreover, an N-doped porous carbon with a high surface area and interconnected nanopores was synthesized from the same COF and used as the anode in HCDI. The HCDI system demonstrated the highest salt removal capacity of 22.8 mg g −1 along with a maximum desalination rate of 3.2 mg g −1 s −1 in a 500 ppm NaCl solution. The strategy used in this work should provide a new insight in exploring high-performance electrode materials for desalination applications. Hybrid capacitive deionization constructed by redox-active covalent organic framework and its derived porous carbon exhibits excellent salt removal performance.
ISSN:2050-7488
2050-7496
DOI:10.1039/c9ta07344b