Optimization of electrochemical regeneration of intercalated MXene for the adsorptive removal of ciprofloxacin: Prospective mechanism

2D-Ti C T MXene nanosheets intercalated with sodium ions (SI-Ti C T ) were synthesized and utilized in simultaneous adsorption and electrochemical regeneration with ciprofloxacin (CPX). The primary focus of this study is to investigate the long-term stability of SI-Ti3C2Tx MXene and to propose the u...

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Veröffentlicht in:Chemosphere (Oxford) 2024-01, Vol.346, p.140544-140544, Article 140544
Hauptverfasser: Ghani, Ahsan Abdul, Kim, Jinseob, Park, Juhui, Lee, Seongju, Kim, Bolam, Lim, Youngsu, Hussain, Muzammil, Manchuri, Amaranadha Reddy, Devarayapalli, Kamakshaiah Charyulu, Kim, Gyuhyeon, Lee, Dae Sung
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Sprache:eng
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Zusammenfassung:2D-Ti C T MXene nanosheets intercalated with sodium ions (SI-Ti C T ) were synthesized and utilized in simultaneous adsorption and electrochemical regeneration with ciprofloxacin (CPX). The primary focus of this study is to investigate the long-term stability of SI-Ti3C2Tx MXene and to propose the underlying regeneration mechanisms. The successful synthesis of Ti AlC , Ti C T MXene, and SI-Ti C T MXene was confirmed using X-ray diffraction, X-ray photoelectron spectroscopy, and Raman spectroscopy. Electrochemical regeneration parameters such as charge passed, regeneration time, current density, and electrolyte composition were optimized with values of 787.5 C g , 7.5 min, 10 mA cm , and 2.5w/v% sodium chloride, respectively, enabling the complete regeneration of the SI-Ti C T MXene. In addition, the electrochemical regeneration significantly enhanced CPX removal from the SI-Ti C T MXene owing to partial amorphization, disorderliness, increased functional groups, delamination, and defect creation in the structure. Thus, the synthesized nano-adsorbent has proven helpful in practical water treatment with optimized electrochemical regeneration processes.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2023.140544