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The Effect of Nitrogen- and Oxygen-Containing Functional Groups on C2H6/SO2/NO Adsorption: A Density Functional Theory Study

Lei Zhang, Shuhui Zhang, Shaofeng Xu, Xiaohan Ren, Yan Zhang, Fan Cao, Qie Sun, Ronald Wennersten, Yang Li

2023Energies20 citationsDOIOpen Access PDF

Abstract

This paper investigates the mechanism of nitrogen- and oxygen-containing functional groups in the collaborative adsorption of harmful gases by activated carbon through numerical simulation. The aim is to provide theoretical guidance for the industrial production of high-performance and universally applicable activated carbon. By employing density functional theory, we explore the impact of pyridine, pyrrole, carboxyl, and carbonyl groups on the co-adsorption of C2H6/SO2/NO by activated carbon through analyzing surface electrostatic potential (ESP), physical adsorption energy, and non-covalent interaction. The findings demonstrate that the presence of nitrogen- and oxygen-containing functional groups within activated carbon surfaces enhances their polarity, while simultaneously forming strong non-covalent interactions with C2H6 and SO2. The N-atom of NO can form a strong C-N ionic bond with the C-atom of the benzene ring. The adsorption site of NO is influenced by the nitrogen- and oxygen-containing functional groups. On an activated carbon model containing a pyrrole functional group, NO exhibits meta-adsorption behavior, while on activated carbon with pyridine, carboxyl, and carbonyl groups, it shows ortho-adsorption characteristics. The interaction between C2H6 and SO2, as well as NO, primarily involves the H-bond, whereas the interaction between SO2 and NO is predominantly driven by dipole–dipole interactions. These intermolecular forces significantly contribute to the mutual adsorption of these molecules.

Topics & Concepts

AdsorptionFunctional groupChemistryDensity functional theoryPyridineActivated carbonNitrogenIntermolecular forcePyrroleOxygenCovalent bondIonic bondingCarbon fibersMoleculeComputational chemistryInorganic chemistryOrganic chemistryMaterials scienceIonPolymerComposite numberComposite materialCatalytic Processes in Materials ScienceGas Sensing Nanomaterials and SensorsAdvanced Chemical Physics Studies
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