Journal
SEPARATION AND PURIFICATION TECHNOLOGY
Volume 258, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.seppur.2020.117987
Keywords
Activated carbon; Surfactants treatment; Synergy; Inverted-capacitive deionization; Desalination
Categories
Funding
- National Natural Science Foundation of China [21808160]
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The study found that using dual surfactants on inverted CDI electrodes can significantly enhance capacitive performance, with nonionic surfactants working synergistically with ionic surfactants. Analysis showed that surfactant loading reduces pore volume and specific surface of activated carbon, affecting its surface chemistry. The research highlights the beneficial effects of the synergy between ionic and nonionic surfactants on the performance of i-CDI electrodes.
Application of surfactants has attracted great interest in capacitive technologies owing to their potent interfacial activity. However, the reported surfactants utilization on Capacitive Deionization (CDI) technology is limited to ionic catalog. Herein, we reported a significant enhancement of capacitive behaviors by functionalizing inverted CDI (i-CDI) electrodes with dual surfactants, wherein nonionic surfactant induces synergistic effects with ionic surfactants. Brunauer-Emmett-Teller (BET) and Discrete Fourier Transform (DFT) isotherms analysis demonstrates that the surfactants loading reduce the pore volume and specific surface of activated carbon (AC) in accordance with the amount uptake. X-ray photoelectron spectroscopy (XPS) analysis shows the surfactant distribution within AC and its surface chemistry. The high resolution XPS spectra show the surfactants influence on binding energy and nitrogen is the most sensitive. The contact angle testing unveiled the fine wettability pertains on Tween 80. The surface charge evaluation in the context of Zeta potential measurement is presented. Through multiple electrochemical characterizations, dual surfactants treated electrodes display a superior capacitive behavior at a wide working voltage window. As such, the AC-T80-HDTMA/AC-T80-SDS system exhibits a higher salts removal capacity (7.5 mg g(-1)) with extended cyclic stability (38%) compare with ACHDTMA/AC-SDS system (5.2 mg g(-1)) at 1.2 V. This work discloses profitable effects of ionic and nonionic surfactants synergy on i-CDI electrodes performance.
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