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Mechanistic insight of metalloporphyrin-based fluorescence sensor reacting with volatile organic compounds


Citation

Gu, Haiyang and Huang, Xingyi and Chen, Quansheng and Sun, Yanhui and Tan, Chin Ping (2020) Mechanistic insight of metalloporphyrin-based fluorescence sensor reacting with volatile organic compounds. Sensors and Materials, 32 (5 (2)). 1823 - 1831. ISSN 0914-4935; ESSN: 2435-0869

Abstract

The theoretical design of a metalloporphyrin-based fluorescence sensor was developed for the discrimination of volatile organic compounds (VOCs). Molecular models of cobalt tetraphenylporphine (CoTPP) with small VOCs were investigated by the density functional theory (DFT) method at the Becke, 3-parameter, Lee–Yang–Parr (B3LYP) and LAN2DZ level. The relative energies of CoTPP and its complexes were calculated at three spin states (low, intermediate, and high) to obtain their optimized geometry structures. Singlets were found to be the most stable states for CoTPP and its complexes, except for CoTPP-oxygen and CoTPP-propanol at triplets. The binding performance was represented by the binding energy (BE), which showed the following order based on the most stable states: propane (L3) < oxygen (O2) < propanol (L2) < hydrogen sulfide (H2S) < propionaldehyde (L6) < nitrogen (N2) < butanone (L5) < ethyl acetate (L4) < trimethylamine (L1). We suggest that the CoTPP-based fluorescence sensor is sensitive to trimethylamine and ethyl acetate, and avoids the interference from propane and oxygen.


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Official URL or Download Paper: https://myukk.org/SM2017/article.php?ss=2836

Additional Metadata

Item Type: Article
Divisions: Faculty of Food Science and Technology
Publisher: MYU
Keywords: Fluorescence sensor; Volatile organic compounds; Density functional theory; Theoretical design
Depositing User: Mohamad Jefri Mohamed Fauzi
Date Deposited: 09 Nov 2021 08:12
Last Modified: 09 Nov 2021 08:12
URI: http://psasir.upm.edu.my/id/eprint/86709
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