Adsorption of CO2 on the ω-Fe (0001) surface: insights from density functional theory

S Assa Aravindh; Wei Cao; Matti Alatalo; Marko Huttula; Jukka Kömi

doi:10.1039/d0ra09194d

Adsorption of CO₂ on the ω-Fe (0001) surface: insights from density functional theory

RSC Adv. 2021 Feb 10;11(12):6825-6830. doi: 10.1039/d0ra09194d. eCollection 2021 Feb 4.

Authors

S Assa Aravindh¹, Wei Cao¹, Matti Alatalo¹, Marko Huttula¹, Jukka Kömi²

Affiliations

¹ Nano and Molecular Systems Research Unit, University of Oulu FIN-90014 Finland.
² Materials and Mechanical Engineering Research Unit, University of Oulu FIN-90014 Finland Assa.Sasikaladevi@oulu.fi.

Abstract

The stabilization of a hexagonal phase known as the ω-phase in steel has recently been identified. The presence of C in steel samples is found to be helping the formation of this otherwise meta stable phase. This indicates that the probability of degradation of the surface is high in steel samples containing the ω-phase, through surface adsorption. Here we calculate the adsorption process of CO₂ on the ω-Fe(0001) surface, for different sites and find that it strongly adsorbs horizontally with a bent configuration. The adsorption is characterized by significant charge transfer from the surface Fe atoms to the CO₂ molecule, and structural modification of the molecule is occurring. The density of states calculations indicate that hybridization and subsequent charge transfer is probable between the d orbitals of Fe and p orbitals of CO₂, resulting in strong chemisorption, that further leads to spontaneous dissociation of the molecule.