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Nanoscale


Title:In situ growth of well-aligned Ni-MOF nanosheets on nickel foam for enhanced photocatalytic degradation of typical volatile organic compounds
Author(s):Ding X; Liu H; Chen J; Wen M; Li G; An T; Zhao H;
Address:"Guangdong Key Laboratory of Environmental Catalysis and Health Risk Control, Guangzhou Key Laboratory Environmental Catalysis and Pollution Control, School of Environmental Science and Engineering, Institute of Environmental Health and Pollution Control, Guangdong University of Technology, Guangzhou 510006, China. antc99@gdut.edu.cn. Guangdong Key Laboratory of Environmental Catalysis and Health Risk Control, Guangzhou Key Laboratory Environmental Catalysis and Pollution Control, School of Environmental Science and Engineering, Institute of Environmental Health and Pollution Control, Guangdong University of Technology, Guangzhou 510006, China. antc99@gdut.edu.cn and Synergy Innovation Institute of GDUT, Shantou 515041, China. Centre for Clean Environment and Energy, and Griffith School of Environment, Gold Coast Campus, Griffith University, Queensland, 4222, Australia. h.zhao@griffith.edu.au"
Journal Title:Nanoscale
Year:2020
Volume:12
Issue:17
Page Number:9462 - 9470
DOI: 10.1039/d0nr01027h
ISSN/ISBN:2040-3372 (Electronic) 2040-3364 (Linking)
Abstract:"Exploitation of highly efficient catalysts for photocatalytic degradation of volatile organic compounds (VOCs) under visible light irradiation is highly desirable yet challenging. Herein, well-aligned 2D Ni-MOF nanosheet arrays vertically grown on porous nickel foam (Ni-MOF/NF) without lateral stacking were successfully prepared via a facile in situ solvothermal strategy. In this process, Ni foam could serve as both a skeleton to vertically support the Ni-MOF nanosheets and a self-sacrificial template to afford Ni ions for MOF growth. The Ni-MOF/NF nanosheet arrays with highly exposed active sites and light harvesting centres as well as fast mass and e- transport channels exhibited excellent photocatalytic oxidation activity and mineralization efficiency to typical VOCs emitted from the paint spray industry, which was almost impossible for their three-dimensional (3D) bulk Ni-MOF counterparts. A mineralization efficiency of 86.6% could be achieved at 98.1% of ethyl acetate removal. The related degradation mechanism and possible reaction pathways were also attempted based on the electron paramagnetic resonance (EPR) and online Time-of-Flight Mass Spectrometer (PTR-ToF-MS) results"
Keywords:
Notes:"PubMed-not-MEDLINEDing, Xin Liu, Hongli Chen, Jiangyao Wen, Meicheng Li, Guiying An, Taicheng Zhao, Huijun eng England 2020/04/30 Nanoscale. 2020 May 7; 12(17):9462-9470. doi: 10.1039/d0nr01027h"

 
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