شیمی کاربردی روز (Feb 2016)
Effect of Lithium Doping on Hydrogen Adsorption of Defected Graphene: A First-Principles Sudy
Abstract
Hydrogen storage capacity of defected graphene was studied by first-principles theory based on Density-functional calculations. Adsorption of molecular hydrogen on a defected graphene V2(5-8-5) and lithium doped defected graphene V2(5-8-5) was carried out. Hydrogen molecules are physisorbed on defected graphene V2(5-8-5) with binding energy about 21–48 meV. Whereas the binding energies increase up to 150–152 meV in Li doped defected graphene. Charge-density analysis indicated that the increasing of binding energy is due to the charge transfer from the H2 molecule to Li . The results explain the enhancement of storage capacity observed in some experimental hydrogen adsorption on defected graphene qualitatively.
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