Theoretical investigation of H₂S removal on γ-Al₂O₃ surfaces of different hydroxyl coverage

Abstract: The sulfurized processes of H 2 S on dehydrated (100) and (110) as well as partially hydrated (110) surfaces of g-Al 2 O 3 were investigated using a periodic density functional theory method. The adsorption configurations of possible intermediates and the potential energy profiles of reaction are depicted. Our results show that H 2 S adsorbs preferentially on the Al site along with the S bond, and the adsorption energies are À32.52 and À114.38 kJ mol À1 on the dehydrated (100) and (110) surfaces, respectively.… Show more

“…53 In total, thirty-nine different adsorption congurations were investigated in this work (thirteen facets, as listed in ref. 58, and three SO 2 initial congurations per surface). The adsorption energy was calculated for the different congurations, either the cobalt-or phosphorus-terminated CoP surfaces.…”

A DFT study of the adsorption energy and electronic interactions of the SO₂ molecule on a CoP hydrotreating catalyst

“…53 In total, thirty-nine different adsorption congurations were investigated in this work (thirteen facets, as listed in ref. 58, and three SO 2 initial congurations per surface). The adsorption energy was calculated for the different congurations, either the cobalt-or phosphorus-terminated CoP surfaces.…”

A DFT study of the adsorption energy and electronic interactions of the SO₂ molecule on a CoP hydrotreating catalyst

“…Such studies frequently necessitate the use of in situ/operando analysis techniques. − Theoretical and computational approaches can provide synergistic insights at atomistic resolution, assuming that the models implemented are reliable. Of the computational approaches available, studies of γ-alumina surfaces to-date are dominated by density functional theory (DFT) − and ab initio molecular dynamics (AIMD) − for nonaqueous and aqueous systems; studies of the latter are fewer, and mostly the domain of AIMD. While the level of resolution accessible to DFT and AIMD is exquisitely detailed, the system sizes and time scales attainable using these methods remains limited due to the high computational demands.…”

Hydration Structures on γ-Alumina Surfaces With and Without Electrolytes Probed by Atomistic Molecular Dynamics Simulations

“…Similarly, Rohmann et al 35 investigated molecular interaction of carbon monoxide with hydroxylated alumina surface, reporting that molecular CO exhibits strong interaction with a 25% degree of hydroxylated surface and this interaction is signicantly stronger when compared with that over the clean dehydrated alumina. In a follow-up study on H 2 S removal via g-Al 2 O 3 surfaces with different hydroxyl coverage, Ren et al 36 revealed that, the bonding strength of H 2 S on hydrated alumina surface is lower than that the over a dehydrated termination. For example, calculated binding energy for 8.9 OH per nm 2 hydroxyl coverage for g-Al 2 O 3 (110) amounts to À68 kJ mol À1 whereas the corresponding value of the dehydrated surface stands at À114 kJ mol À1 .…”

Formation of environmentally-persistent free radicals (EPFR) on α-Al₂O₃ clusters