Accentuating the Competency of 3d Transition Metal Doped Mg4 Clusters towards Molecular Hydrogen Adsorption: A DFT Study
Abstract
Density functional theory (DFT) studies show that doping of 3d TM atoms into Mg40,+ (TMMg30,+) can alter the endothermic nature of molecular hydrogen adsorption on bare Mg40,+. H2 adsorption on TMMg30,+ clusters depends on the TM(3d) orbital contribution to the frontier molecular orbitals of the clusters. In H2TMMg30,+ complexes, H2 is adsorbed through donation and back donation of electronic charges with TMMg30,+ clusters. H2 binding energy is the maximum for NiMg3 (-0.76 eV) and FeMg3+ (-0.48 eV) among the neutral and cationic TMMg3 clusters, respectively. The geometry of H2 adsorption complex entirely depends on the geometry of the host cluster. The lowest energy symmetrical structures of both NiMg3 and FeMg3+ clusters are less efficient than some slightly higher energy low symmetrical geometrical isomers for adsorption of multiple hydrogen molecules (13.28 H2 wt\% for NiMg3 and 7.89 H2 wt\% for FeMg3+). Greater exposer of TM0,+ along with its lower Mg coordination number make host clusters more suitable for hydrogen storage.
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