Yttrium decorated fullerene C30 as potential hydrogen storage material: Perspectives from DFT simulations

Abstract: Using the density functional theory method, hydrogen storage capacity for Yttrium doped fullerene has been studied. Bonding of Y atom with that of C30 is due to the charge transfer taking place from the d-orbital of the Y atom to the 2p-orbital of the C atom of C30. It has been predicted that a single Y atom can adsorb 7 hydrogen molecules, whose binding energy falls within the range as suggested by the U.S. Department of Energy (DOE). Interaction of hydrogen on the metal is because of the Kubas interaction wh… Show more

“…65,66 C 30 when decorated with Y could hold seven hydrogen molecules with an average binding energy of −0.385. 67 When C 30 is bound to the graphene layer, the Ti atom on it could hold H 2 with a binding energy of −1.41 eV. 68 Though studies are reported on C 30 , no studies have been performed on Ti decorated C 30 .…”

Ti-decorated C₃₀ as a high-capacity hydrogen storage material: insights from density functional theory

“…65,66 C 30 when decorated with Y could hold seven hydrogen molecules with an average binding energy of −0.385. 67 When C 30 is bound to the graphene layer, the Ti atom on it could hold H 2 with a binding energy of −1.41 eV. 68 Though studies are reported on C 30 , no studies have been performed on Ti decorated C 30 .…”

Ti-decorated C₃₀ as a high-capacity hydrogen storage material: insights from density functional theory