Issue 45, 2023

A density functional theory study on the adsorption of different organic sulfides on boron nitride nanosheet

Abstract

The adsorption of methanethiol (MT), thiophene (T), benzothiophene (BT), dibenzothiophene (DBT) on hexagonal boron nitride (h-BN) has been investigated by the framework of the density functional theory (DFT) calculations in this work. The prefer adsorption sites and interfacial angles of different sulfur compounds on the surface of the h-BN are investigated and analyzed. The adsorption energy results indicated that the adsorption of MT (Ead ≈ −6 kcal mol−1), T (Ead ≈ −10 kcal mol−1), BT (Ead ≈ −15 kcal mol−1), and DBT (Ead ≈ −21 kcal mol−1) on monolayer h-BN is physical interaction, and the value of Ead on bilayer h-BN is more than that on monolayer h-BN 0.05%. Adsorptive conformations show that sulfides prefer to be adsorbed on center B atoms rather than N atoms. Meanwhile, thiophene and its analogues tend to be adsorbed parallel on h-BN plane. Energy decomposition, natural population analysis (NPA), and electrostatic potential (ESP) analysis used to better understand the nature of adsorption on h-BN. van der Waals force plays a dominant role in adsorption process. Due to the π–π interactions, T, BT, and DBT have larger van der Waals forces than MT and the value of adsorption energy is negative correlated to the number of benzene rings. These findings are helpful for deeper understanding the adsorptive desulfurization mechanism and help develop better adsorbents for desulfurization in the future.

Graphical abstract: A density functional theory study on the adsorption of different organic sulfides on boron nitride nanosheet

Supplementary files

Article information

Article type
Paper
Submitted
22 Aug 2023
Accepted
23 Oct 2023
First published
30 Oct 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 31622-31631

A density functional theory study on the adsorption of different organic sulfides on boron nitride nanosheet

Z. Hou, X. Lin, K. Wu, H. Chi, W. Zhang, L. Ma and Y. Xi, RSC Adv., 2023, 13, 31622 DOI: 10.1039/D3RA05718F

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