Robust and recyclable graphene/chitosan composite aerogel microspheres for adsorption of oil pollutants from water

Despite recent progress in graphene-based aerogels, challenges such as low mechanical strength and adsorption efficiency are still remaining. Here the reduced graphene oxide (rGO)/chitosan (CS) composite aerogel microspheres (rGCAMs) with center-diverging microchannel structures were developed by el...

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Veröffentlicht in:	Carbohydrate polymers 2022-08, Vol.290, p.119416-119416, Article 119416
Hauptverfasser:	Guo, Quanfen, Amendola, Eugenio, Lavorgna, Marino, Li, Zhong, Feng, Huanzhi, Wu, Yi, Fei, Guoxia, Wang, Zhanhua, Xia, Hesheng
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Adsorption kinetic Chitosan - chemistry Environmental Pollutants Graphene aerogels microsphere Graphite - chemistry Mechanical strength Microspheres Oils Recycling dynamic adsorption Water Water Pollutants, Chemical - chemistry Water-oil emulsion separation
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container_title	Carbohydrate polymers
container_volume	290
creator	Guo, Quanfen Amendola, Eugenio Lavorgna, Marino Li, Zhong Feng, Huanzhi Wu, Yi Fei, Guoxia Wang, Zhanhua Xia, Hesheng
description	Despite recent progress in graphene-based aerogels, challenges such as low mechanical strength and adsorption efficiency are still remaining. Here the reduced graphene oxide (rGO)/chitosan (CS) composite aerogel microspheres (rGCAMs) with center-diverging microchannel structures were developed by electrospraying and freeze-drying method. The optimized rGCAMs exhibit a high Young's modulus of 197 kPa and can support ~75,000 times its own weight, due to the cross-linking of CS by glutaraldehyde. Meanwhile, the rGCAMs can maintain high adsorption capacity for 15 cyclic tests due to its excellent mechanical strength. The oil adsorption kinetics and isotherms of rGCAMs follow the pseudo-second-order kinetic equation and the Langmuir model, respectively. The whole adsorption process is influenced by the oil diffusion in the liquid matrix and also in the intra-particle of aerogel microspheres. Moreover, rGCAMs can also be used to separate both surfactant-stabilized water-in-oil and oil-in-water emulsions through demulsification. The high-strength, recyclable and separation-efficient rGCAMs can be a potential candidate for oily wastewater treatment. [Display omitted]
doi_str_mv	10.1016/j.carbpol.2022.119416
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Here the reduced graphene oxide (rGO)/chitosan (CS) composite aerogel microspheres (rGCAMs) with center-diverging microchannel structures were developed by electrospraying and freeze-drying method. The optimized rGCAMs exhibit a high Young's modulus of 197 kPa and can support ~75,000 times its own weight, due to the cross-linking of CS by glutaraldehyde. Meanwhile, the rGCAMs can maintain high adsorption capacity for 15 cyclic tests due to its excellent mechanical strength. The oil adsorption kinetics and isotherms of rGCAMs follow the pseudo-second-order kinetic equation and the Langmuir model, respectively. The whole adsorption process is influenced by the oil diffusion in the liquid matrix and also in the intra-particle of aerogel microspheres. Moreover, rGCAMs can also be used to separate both surfactant-stabilized water-in-oil and oil-in-water emulsions through demulsification. The high-strength, recyclable and separation-efficient rGCAMs can be a potential candidate for oily wastewater treatment. 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Here the reduced graphene oxide (rGO)/chitosan (CS) composite aerogel microspheres (rGCAMs) with center-diverging microchannel structures were developed by electrospraying and freeze-drying method. The optimized rGCAMs exhibit a high Young's modulus of 197 kPa and can support ~75,000 times its own weight, due to the cross-linking of CS by glutaraldehyde. Meanwhile, the rGCAMs can maintain high adsorption capacity for 15 cyclic tests due to its excellent mechanical strength. The oil adsorption kinetics and isotherms of rGCAMs follow the pseudo-second-order kinetic equation and the Langmuir model, respectively. The whole adsorption process is influenced by the oil diffusion in the liquid matrix and also in the intra-particle of aerogel microspheres. Moreover, rGCAMs can also be used to separate both surfactant-stabilized water-in-oil and oil-in-water emulsions through demulsification. 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subjects	Adsorption Adsorption kinetic Chitosan - chemistry Environmental Pollutants Graphene aerogels microsphere Graphite - chemistry Mechanical strength Microspheres Oils Recycling dynamic adsorption Water Water Pollutants, Chemical - chemistry Water-oil emulsion separation
title	Robust and recyclable graphene/chitosan composite aerogel microspheres for adsorption of oil pollutants from water
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