Investigation the sensing behavior of pristine and Ti-doped C2N monolayer toward H2S gas

[Display omitted] •The H2S molecule of were adsorbed on the pure C2N monolayer (P-C2NML) and the Ti-doped C2N monolayer (T- C2NML).•The best adsorption capacity (AC) for the H2S molecule on the T-C2NML surface with adsorption energy of − 1.987 eV.•The results of electronic distribution and DOS analy...

Full description

Saved in:
Bibliographic Details
Published in:Inorganic chemistry communications 2023-04, Vol.150, p.110385, Article 110385
Main Authors: Abdul Hadi, Mohammed, Kadhim, Mustafa M., Sabri Abbas, Zainab, Hachim, Safa K., Abdullaha, Sallal A.H., Mahdi Rheima, Ahmed
Format: Article
Language:English
Subjects:
Adsorption energy
C2N monolayer
Hydrogen sulfide
Volatile organic compounds
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •The H2S molecule of were adsorbed on the pure C2N monolayer (P-C2NML) and the Ti-doped C2N monolayer (T- C2NML).•The best adsorption capacity (AC) for the H2S molecule on the T-C2NML surface with adsorption energy of − 1.987 eV.•The results of electronic distribution and DOS analysis revealed that doped Ti acted as a bridge between the H2S molecule and the C2NML. As a group of chemicals and air contaminants, volatile organic compounds or VOCs have a threatening impact upon the ecological environment and the human well-being. One of the encouraging technologies to enrich, separate and use VOCs is their adsorption. Within this study, density functional theory (DFT) computations were undertaken for inspecting how the molecules of VOCs were adsorbed on the pure C2N monolayer (P-C2NML) and the Ti-doped C2N monolayer (T- C2NML) since its specific surface is large and it has a porous structure. The results revealed that the hydrogen sulfide (H2S) molecule could be adsorbed on the P-C2NML with a weak energy of adsorption. However, this adsorption ability could be enhanced by forming a chemical bond which is strong. The best adsorption capacity (AC) for the H2S molecule on the T-C2NML surface with adsorption energy of − 1.987 eV was larger compared with that of the P-C2NML. Moreover, the results of electronic distribution and DOS analysis revealed that doped Ti acted as a bridge between the H2S molecule and the C2NML and strengthen the interaction between them, which can substantially improve the AC. Hence, the T-C2NML can be considered an encouraging adsorbent to enrich and use VOCs.
ISSN:1387-7003
1879-0259
DOI:10.1016/j.inoche.2022.110385