Sodium lignosulfonate/graphene composites for efficient desalination by incorporating CoS to control pore size

The phenomenon of overlapping double layers due to micropores inhibits capacitive deionization performance, which is improved by increasing the pore size. In this study, a novel ternary composite electrode (sodium lignosulfonate/reduced graphene oxide/cobalt sulfide, LGC) was designed using a two-st...

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Bibliographic Details
Published in:International journal of biological macromolecules 2024-05, Vol.268 (Pt 1), p.131639, Article 131639
Main Authors: Jing, Songjie, Tian, Jiangyang, Hu, Runze, Huang, Zhanhua
Format: Article
Language:English
Subjects:
Capacitive deionization
Graphene
Sodium lignosulfonate
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Summary:The phenomenon of overlapping double layers due to micropores inhibits capacitive deionization performance, which is improved by increasing the pore size. In this study, a novel ternary composite electrode (sodium lignosulfonate/reduced graphene oxide/cobalt sulfide, LGC) was designed using a two-step hydrothermal method. CoS with high pseudocapacitance modifies sodium lignosulfonate and graphene connected by hydrogen bonding, benefiting from the constitutive steric structure. The electrochemical performance was significantly enhanced, and the desalination capacity substantially improved. The LGC electrode specific capacitance was as high as 354.47 F g−1 at a 1 A g−1 current density. The desalination capacity of the capacitive deionization device comprising LGC and activated carbon in 1 M NaCl electrolyte reached 28.04 mg g−1 at an operating condition of 1.2 V, 7 mL min−1. Additionally, the LGC electrodes degraded naturally post the experiment by simply removing the CoS, suggesting that the LGC composites are promising material for capacitive deionization electrodes. LGC electrode material with CoS attached to GO and LS was prepared by a two - step hydrothermal method, and a capacitive deionization device was fabricated with AC for efficient desalination at 1.2 V. [Display omitted] •Sodium lignosulfonate complexed with graphene inhibited the stacking of graphene.•The CoS increases the LGC aperture and decreases the overlap of the bilayer.•The specific capacitance of the LGC electrode can reach 354.47 F g−1.•LGC//AC capacitive deionization devices up to 28.04 mg g−1 desalination.
ISSN:0141-8130
1879-0003
1879-0003
DOI:10.1016/j.ijbiomac.2024.131639