Download This PaperAll- In-One Transparent Cellulose-Based Composite Membrane for Simultaneous Colorimetric Detection and Photocatalytic Degradation of Amine Vocs
36 Pages Posted: 18 Oct 2024
Abstract
Developing high-performance multifunctional catalyst that adept at both sensitive detecting and efficient degrading of volatile organic compounds (VOCs) is of significant importance for human and eco safety. This work presented a bifunctional nonmetal composite membrane by functionalizing transparent cellulose membrane with double responsive bromocresol green and catalytic COFTAPB-PDA/g-C3N4 heterojunctions for simultaneous detection and degradation of amine VOCs. Bromocresol green possesses both intrinsic visualized acid-base responsiveness and wide light adsorption range. Hierarchical COFTAPB-PDA/g-C3N4 with high specific surface area (up to 1256.60 m2 g-1) can effectively promote the absorption and diffusion of substrates and the separation of photo-generated carriers. A flexible macroporous transparent cellulose membrane was applied as carrier to alleviate the “self-masking effect” of the catalyst inside to improve light utilization. As a result, the composite membrane showing a visually reversible color change from yellow to blue for amine VOCs and achieving rapid quantitative detection of representative triethylamine (detection time of 5 s with a LOD of 0.32 ppm) on the aid of a smart phone. The degradation and mineralization efficiency of triethylamine reached 97.3% and 73.5% within 180 min, respectively. The ingenious design of integrating bifunctional cellulose composite material provides feasibility for the rapid identification and efficient removal of VOCs.
Keywords: Bifunctional composite membrane, COFs/g-C3N4 heterojunction, Colorimetric detection, Photocatalytic degradation, Volatile organic compounds
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