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Monolithic cobalt-doped carbon aerogel for efficient catalytic activation of peroxymonosulfate in water.
Title Monolithic cobalt-doped carbon aerogel for efficient catalytic activation of peroxymonosulfate in water.
Authors Hu, P.; Long, M.; Bai, X.; Wang, C.; Cai, C.; Fu, J.; Zhou, B.; Zhou, Y.
Journal J Hazard Mater
DOI 10.1016/j.jhazmat.2017.03.010
Abstract

As an emerging carbonaceous material, carbon aerogels (CAs) display a great potential in environmental cleanup. In this study, a macroscopic three-dimensional monolithic cobalt-doped carbon aerogel was developed by co-condensation of graphene oxide sheets and resorcinol-formaldehyde resin in the presence of cobalt ions, followed by lyophilization, carbonization and thermal treatment in air. Cobalt ions were introduced as a polymerization catalyst to bridge the organogel framework, and finally cobalt species were retained as both metallic cobalt and Co3O4, wrapped by graphitized carbon layers. The material obtained after a thermal treatment in air (CoCA-A) possesses larger BET specific surface area and pore volume, better hydrophilicity and lower leaching of cobalt ions than that without the post-treatment (CoCA). Despite of a lower loading of cobalt content and a larger mass transfer resistance than traditional powder catalysts, CoCA-A can efficiently eliminate organic contaminants by activation of peroxymonosulfate with a low activation energy. CoCA-A can float beneath the surface of aqueous solution and can be taken out completely without any changes in morphology. The monolith is promising to be developed into an alternative water purification technology due to the easily separable feature.