Multifunctional Ag/AgCl decorated CO2-responsive cotton membranes with photo-induced self-cleaning property for efficient bidirectional oil/water separation and dyes removal

Development of multifunctional materials for efficient treatment of complex effluents containing water-insoluble oils and water-soluble dyes is highly desired. In this work, a multifunctional Ag/AgCl decorated CO2-responsive cotton membrane (Ag/AgCl@PCM) was successfully fabricated for simultaneous...

Full description

Saved in:
Bibliographic Details
Published in:Polymer (Guilford) 2022-06, Vol.251, p.124890, Article 124890
Main Authors: Dou, Baojie, Lan, Jianwu, Lang, Shiying, Wang, Yazhou, Yang, Lin, Liu, Hongyu, Wang, Yafang, Yao, Anrong, Lin, Shaojian
Format: Article
Language:English
Subjects:
Adsorption
Antibacterial activity
Carbon dioxide
Catalytic activity
Cationic dyes
Cleaning
CO2-Responsivness
Color removal
Cotton
Dye removal
Dyes
Environmental conditions
Hydrophobicity
Membranes
Multifunctional materials
Oil/water separation
Photocatalysis
Photodegradation
Protonation
Recyclability
Separation
Silver chloride
Wastewater
Wastewater treatment
Wettability
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Development of multifunctional materials for efficient treatment of complex effluents containing water-insoluble oils and water-soluble dyes is highly desired. In this work, a multifunctional Ag/AgCl decorated CO2-responsive cotton membrane (Ag/AgCl@PCM) was successfully fabricated for simultaneous or successive removal of oils and dyes (both cationic and anionic dyes). Through achieving protonation and deprotonation in response to the CO2, the as-prepared Ag/AgCl@PCM could reversibly switch from superhydrophobic (uncharged) state to superhydrophilic (charged) state. Moreover, the Ag/AgCl endowed the Ag/AgCl@PCM with visible light photocatalytic activity. Based on these ingenious features, the as-prepared Ag/AgCl@PCM could bidirectional separation of various oil/water mixtures with high separation efficiencies (≥97.50%), accompanying with satisfactory fluxes, due to controllable wettability upon CO2 stimulation. Moreover, the as-prepared Ag/AgCl@PCM exhibited stable oil/water separation property, even under various adverse environmental conditions. Meanwhile, the Ag/AgCl@PCM could eliminate the dyes in wastewater through adsorption for anionic dyes and photocatalysis for cationic dyes. The results presented that MB (anionic dye) could be efficiently removed by the Ag/AgCl@PCM under both static and dynamic states in the presence of CO2. The maximum static adsorption capacity of the Ag/AgCl@PCM toward MB reached 2168.47 mg g−1 with a fast adsorption rate (12 min of adsorption equilibrium time). For the removal of cationic dyes, the photo-degradation efficiency of the Ag/AgCl@PCM toward RhB (cationic dye) was up to 94.30% within 6 h. Most importantly, the as-prepared Ag/AgCl@PCM exhibited photo-induced self-cleaning performance due to the existence of Ag/AgCl, which endowed it with excellent recyclability. Additionally, the as-prepared Ag/AgCl@PCM displayed outstanding antibacterial activity. In summary, the Ag/AgCl@PCM could be viewed as a satisfactory material for oil/water separation and dyes removal and exhibits great potential in wastewater remediation. [Display omitted] •Filtration, adsorption and photocatalysis are combined for complex water treatment.•Ag/AgCl@PCM displays CO2 controllable and efficient oil/water separation behavior.•Ag/AgCl@PCM removes anionic dye by adsorption and cationic dye by photocatalysis.•Ag/AgCl@PCM exhibits photo-induced self-cleaning feature and good recyclability.
ISSN:0032-3861
1873-2291
DOI:10.1016/j.polymer.2022.124890