Structures and Properties of MgTiH n Clusters (n ≤ 20).

Newland, Camryn; Balamurugan, D.; Lyon, Jonathan T.

Magnesium hydride solids doped with transition metals have received attention recently as prospective hydrogen storage materials for a green energy source and a hydrogen economy. In this study, MgTiHn (n = 1–20) clusters were investigated for the first time by employing the B3PW91 hybrid density functional theory computational chemistry technique with all electron basis sets to determine precise cluster structures and the maximum hydrogen capacity for this model system. We find that hydrogen atoms bind to the metal cluster core until a MgTiH14 saturation limit is reached, with hydrogen dissociation from this system occurring for MgTiH15 and larger cluster sizes. This MgTiH14 cluster contains a large 16.4% hydrogen by mass. This saturation size limit and hydrogen mass percent is larger than the analogous MgScHn system previously reported. The clusters relative stabilities and electronic properties are discussed along with a possible novel hydrogen dissociation pathway. MgTiH10 and MgTiH13 clusters are predicted to be especially stable species in this size range.

HYDROGEN economy; DENSITY functional theory; METAL clusters; COMPUTATIONAL chemistry; HYDROGEN atom

Hydrogen, 2024, Vol 5, Issue 4, p669

2673-4141

Academic Journal

10.3390/hydrogen5040035