Enhanced desalination efficiency in modified membrane capacitive deionization by introducing ion-exchange polymers in carbon nanotubes electrodes

•A modified membrane capacitive deionization device was proposed.•The electrodes consisted of ion exchange polymers and carbon nanotubes.•The polymers improved the contact adhesion and reduced the co-ion expulsion effect.•The device exhibited a high NaCl removal with a good regeneration ability. A m...

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Bibliographic Details
Published in:Electrochimica acta 2014-06, Vol.130, p.619-624
Main Authors: Liu, Yong, Pan, Likun, Xu, Xingtao, Lu, Ting, Sun, Zhuo, Chua, Daniel H.C.
Format: Article
Language:English
Subjects:
Anion exchanging
Capacitive deionization
Carbon nanotubes
Cation exchanging
Cationic polymerization
Deionization
Desalination
Dimethyl diallyl ammonium chloride
Electrodes
Membranes
Polyethyleneimine
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Summary:•A modified membrane capacitive deionization device was proposed.•The electrodes consisted of ion exchange polymers and carbon nanotubes.•The polymers improved the contact adhesion and reduced the co-ion expulsion effect.•The device exhibited a high NaCl removal with a good regeneration ability. A modified membrane capacitive deionization (m-MCDI) device was proposed with high desalination efficiency. The m-MCDI electrodes were fabricated by introducing the anion exchange polymer (dimethyl diallyl ammonium chloride) and cation exchange (polyethyleneimine) polymer into carbon nanotubes (CNTs) electrodes and their desalination performance in NaCl solutions was investigated. The m-MCDI unit cell based on both anion and cation exchange polymers exhibits a high NaCl removal of 93%, much higher than that of conventional capacitive deionization cell with CNTs electrode (25%) or MCDI cell with commercial anion and cation exchange membranes (74%) in a certain experiment at 1.2V and for an initial conductivity of 50μS/cm. The large improvement in desalination performance is mainly due to the reduced co-ion expulsion effect by introducing ion exchange polymers and the better contact adhesion between ion exchange polymers and electrodes than between commercial ion exchange membranes and electrodes.
ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2014.03.086