We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
DFT STUDY OF METHYL (CH<sub>3</sub>) AND HYDROXYL (OH) ADSORPTION ON A GOLD (001) SURFACE.
- Authors
BOUKA-PIVOTEAU, G. B.; N'DOLLO, M.; MALONDA-BOUNGOU, B. R.; MALOUMBI, B.; MOUSSOUNDA, P. S.; DINTZER, T.
- Abstract
We used the DACAPO code with the GGA-PW91 approximation to study the adsorption of methyl (CH3) and hydroxyl (OH) for four- and five-layer gold (Au) (001) slabs. We have determined for each species the best binding site, adsorption energy, the change in the work function, surface energy, surface dipole moment, geometrical parameters and projected density of states (PDOS). We performed spin-unpolarized and spin-polarized DFT calculations for free and adsorbed CH3 and OH species. The most important point is that the spin polarization diminishes the adsorption energies but does not change the geometrical parameters. For the CH3 species, only the top site was found to be stable for different coverages. We found that during the optimization phase, the hollow and bridge sites were found to be unstable. In both cases the CH3 species moves toward the top site. We observe that the adsorption energy decreases when increasing the coverage. However, the OH species was stable in all investigated sites (top, bridge and hollow). We notice that the adsorption energy is dependent on the number of slab layers and the bridge is the best site in adsorption energy. The analysis of the calculated O PDOS of OH radical shows a mixing between the O orbitals and the Au bands.
- Subjects
ADSORPTION (Chemistry); SURFACE energy; SPIN polarization; DIPOLE moments; ELECTRON work function; RADICAL anions
- Publication
Surface Review & Letters, 2019, Vol 26, Issue 5, pN.PAG
- ISSN
0218-625X
- Publication type
Article
- DOI
10.1142/S0218625X18501986