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Determining the binding mechanism of B12N12(Zn) with CH4, CO, CO2, H2O, N2, NH3, NO, NO2, O2, and SO2 gases

Karwan Wasman Qadir, Mohsen Doust Mohammadi, Noor J. Ridha, Hewa Y. Abdullah

2024Microporous and Mesoporous Materials31 citationsDOIOpen Access PDF

Abstract

In this study, an exploration of molecular interactions between CH 4 , CO, CO 2 , H 2 O, N 2 , NH 3 , NO, NO 2 , O 2 , SO 2 gas molecules and B 12 N 12 (Zn) nanocage is conducted using advanced computational techniques, ωB97XD/Def2tzvp, unraveling fundamental behaviors. Employing global optimization methods and sophisticated tools like the bee colony algorithm in ABCluster software, the research offers insights into energy adsorption processes , confirming molecular stability through DFT calculations. The determination of electrophilicity index values through conceptual DFT analysis sheds light on relative reactivity levels and charge transfer phenomena, emphasizing that in some cases the nanocage's role as a potential electron acceptor . Natural bond analysis of charge transfer direction and valence shell orbital interactions enriches understanding, supported by comprehensive parameter compilation and critical point visualization. Further confirmation of interaction types and strengths through G(r)/V(r) ratios and ELF values enhances comprehension through quantum theory of atoms in molecule analysis. Ultimately, this study contributes significantly to computational chemistry , laying foundations for molecular design and engineering advancements. It sets the stage for future progress in materials science and catalysis, promising innovation in sustainable energy solutions and technological development.

Topics & Concepts

NanocagesChemistryDensity functional theoryMoleculeComputational chemistryAtoms in moleculesChemical physicsQuantum chemistryValence (chemistry)Natural bond orbitalElectron transferAb initioReactivity (psychology)CatalysisPhysical chemistrySupramolecular chemistryOrganic chemistryAlternative medicineMedicinePathologyBoron and Carbon Nanomaterials ResearchFullerene Chemistry and ApplicationsAdvanced Chemical Physics Studies
Determining the binding mechanism of B12N12(Zn) with CH4, CO, CO2, H2O, N2, NH3, NO, NO2, O2, and SO2 gases | Litcius