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Large-Scale Synthesis of Biomass@MOF-Derived Porous Carbon/Cobalt Nanofiber for Environmental Remediation by Advanced Oxidation Processes

Ming Zhang, Chengming Xiao, Chi Zhang, Junwen Qi, Chaohai Wang, Xiuyun Sun, Lianjun Wang, Qiang Xü, Jiansheng Li

2020ACS ES&T Engineering76 citationsDOI

Abstract

Metal–organic framework (MOF) derived carbon-based nanocatalysts have received great attention in environmental remediation application. However, the aggregation and poor separation characteristics are the main obstacles in practical application. Herein, biomass (cotton) of cheap cost and easy availability has been selected as an ideal support for MOFs (ZIF-67). The catalyst precursor Cot@ZIF-67 is obtained by the coordination of Co ions with hydroxyl groups (from cotton) and nitrogen (from 2-methylimidazole). To present the catalytic ability of Cot@ZIF-67 derived carbon/Co materials (CC@CNCo), bisphenol A (BPA) as the targeted pollutant is selected. The results indicate that almost 100% of BPA can be removed by catalyst CC@CNCo within 5 min. Based on quenching experiments, fluorescence detection, and electron paramagnetic resonance (EPR) analysis, a sulfate-radical-dominated radical mechanism is proposed. This work is expected to attract greater attention to biomass/MOF derived materials for environmental remediation.

Topics & Concepts

Nanomaterial-based catalystEnvironmental remediationCatalysisCobaltBisphenol AMetal-organic frameworkElectron paramagnetic resonanceBiomass (ecology)Materials scienceChemical engineeringCarbon fibersChemistryNanotechnologyInorganic chemistryOrganic chemistryAdsorptionContaminationComposite materialPhysicsNuclear magnetic resonanceBiologyEngineeringGeologyEpoxyOceanographyEcologyComposite numberMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced Photocatalysis TechniquesCatalytic Processes in Materials Science
Large-Scale Synthesis of Biomass@MOF-Derived Porous Carbon/Cobalt Nanofiber for Environmental Remediation by Advanced Oxidation Processes | Litcius