Download This PaperSustainable Mof-Derived Carbon Aerogel for Ultrafast Degrading Mitoxantrone
41 Pages Posted: 22 Feb 2024
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Sustainable Mof-Derived Carbon Aerogel for Ultrafast Degrading Mitoxantrone
Abstract
Conventional nanomaterials are met with the bottleneck problem of difficult recycling and reuse when applied to water treatment. Carbon aerogel with three-dimensional structure can effectively solve the problem of recycling, however, the preparation of efficient and recyclable aerogel catalyst is still an urgent technical problem. Here, an NH2-MIL-88B(Fe)/agarose carbon aerogel (MGA-200) was synthesized. As a photo-Fenton catalyst, the aerogel could efficiently activate H2O2 to ultrafast degrade mitoxantrone in water. Within 2 min, the removal efficiency of mitoxantrone in the MGA-200/H2O2/Light system was 97.6%, which was 85.3 times greater than that in the agarose/H2O2/Light system. Notably, the aerogel catalyst can be directly recovered and recycled without additional treatments, and can maintain excellent performance even after five cycles, demonstrating excellent sustainability for practical applications. The primary active radicals involved in the photocatalytic degradation process were h+, •OH and •O2-, which were confirmed through free radical quenching experiments and electron paramagnetic resonance analysis. Additionally, possible degradation pathways for mitoxantrone were proposed based on the results of liquid chromatography-mass spectrometry. This study presents a photocatalytic aerogel with highly efficient degradation ability along with recycling and reuse capacity, exhibiting great potential for application in the remediation of water pollution.
Keywords: aerogel, photo-Fenton, energy band gap, mitoxantrone, sustainable
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