| Literature DB >> 33909123 |
Faezeh Shiri1, Forough Kalantari Fotooh2, Mohammad Hossein Mosslemin1, Razieh Mohebat1.
Abstract
Adsorption of hydrogen sulfide (H2S) on the surface of catalytic systems containing (8, 0) single-walled carbon nanotube decorated with Ni and Pd transition metals was investigated using plane-wave density functional theory. SWCNT was modified by adding Ni and Pd atoms to both inside and outside the nanotube and replacing carbon atoms with these metals. All structures were relaxed, and their structural and electronic properties were investigated before and after H2S adsorption and compared with pristine (8, 0) SWCNT properties. Obtained results showed that decorating CNTs with metals increases CNT efficiency for H2S adsorption. The most negative adsorption energies were observed when H2S was adsorbed on the surfaces of metal-decorated nanotube. Electronic properties like band structures and density of states indicated that systems containing Ni on SWCNT are more effective at adsorbing and sensing H2S molecules. Hydrogen sulfide adsorption also changed the magnetization of Ni-decorated structures. Moreover, adsorption of H2S from H side to Ni-decorated SWCNT leads to dissociation of H2S to HS and S atom. Obtained results showed that metal-decorated nanotubes are potentially good candidates for separating H2S from industrial waste gas streams and for its use in H2S sensors.Entities:
Keywords: Adsorption; Band structure; Carbon nanotube; Density functional theory; Density of states; Hydrogen sulfide
Year: 2021 PMID: 33909123 DOI: 10.1007/s00894-021-04761-w
Source DB: PubMed Journal: J Mol Model ISSN: 0948-5023 Impact factor: 1.810