Sensing properties of 2D conductive M3(HITP)2 MOFs toward SO2 gas: a theoretical studyDepartment of Chemistry, Faculty of Science, Kasetsart University, Bangkok, Thailand
E-mail: fscijkp@ku.ac.th Received: 7 April 2023 Accepted: 8 June 2023 Abstract: Analogous to graphene, the 2D conductive metal–organic framework as M3(HITP)2 exhibits remarkable properties for diverse applications. This work employed DFT calculations (M06//M06-L) to investigate the adsorption and sensitivity of six M-HITP units (M = Cr, Mn, Fe, Co, Ni, and Cu) as active sensor materials toward SO2 gas. In the adsorption process, two modes of adsorption on the metal center, namely O-bound and S-bound configurations, were found in three systems (Cr-, Mn-, and Fe-HITPs). While the remaining systems, the adsorption of SO2 on the metal center occurs via the SO2 sulfur atom. Among adsorption complexes, the adsorptions on Cr-HITP MOF are characterized as chemical adsorption, in which the O-bound configuration is more stable than the S-bound configuration by 10.7 kcal/mol. The population analysis reveals that only Cr-HITP shows a significant response toward SO2 gas after adsorption, while the remaining systems are almost insensitive. The energy gap of the substrate is changed from 0.95 to 2.06 eV, indicating the adsorption of SO2 reduces the conductivity of Cr-HITP MOF. Therefore, Cr-HITP MOF has great potential in the application of SO2 gas sensors. Keywords: SO2; Sensor; 2D conductive MOF; DFT calculations; Energy gap Full paper is available at www.springerlink.com. DOI: 10.1007/s11696-023-02921-1
Chemical Papers 77 (10) 6053–6068 (2023) |
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