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A DFT study on effective detection of ClCN gas by functionalized, decorated, and doped nanocone strategies

Anjan Kumar, M.I. Sayyed, Michael M. Sabugaa, Mohammed Al‐Bahrani, Shilpa Sharma, Mohamed J. Saadh

2023RSC Advances12 citationsDOIOpen Access PDF

Abstract

) of these configurations increased in the range of 9.03% and 12.54%, respectively, thereby giving off a chemical signal. An analysis conducted by the NCI confirms that there is a strong interaction between ClCN and Al and Ga atoms in CNC-Al and CNC-Ga structures, which is represented by the red color in the RDG isosurfaces. Additionally, the NBO charge analysis reveals that significant charge transfer is present in S21 and S22 configurations (190 and 191 |me|, respectively). These findings suggest that the adsorption of ClCN on these surfaces impacts the electron-hole interaction, which subsequently alters the electrical properties of the structures. Based on the DFT results, the CNC-Al and CNC-Ga structures, which have been doped with aluminium and gallium atoms, respectively, have the potential to serve as good candidates for detecting ClCN gas. Among these two structures, the CNC-Ga structure emerged as the most desirable one for this purpose.

Topics & Concepts

GalliumAluminiumDensity functional theoryDopingAdsorptionChemistryHOMO/LUMOMoleculeOxideComputational chemistryInorganic chemistryPhysical chemistryNanotechnologyMaterials scienceOrganic chemistryOptoelectronicsCarbon Nanotubes in CompositesFullerene Chemistry and ApplicationsBoron and Carbon Nanomaterials Research