Ab initio study of lithium-doped graphane for hydrogen storage
Tanveer HussainCondense Matter Theory Group, Department of Physics and Astronomy, Box 516, Uppsala University S-75120 Uppsala, Sweden, EUBiswarup PathakCondense Matter Theory Group, Department of Physics and Astronomy, Box 516, Uppsala University S-75120 Uppsala, Sweden, EUTuhina Adit MaarkCondense Matter Theory Group, Department of Physics and Astronomy, Box 516, Uppsala University S-75120 Uppsala, Sweden, EUC. Moysés AraújoCondense Matter Theory Group, Department of Physics and Astronomy, Box 516, Uppsala University S-75120 Uppsala, Sweden, EURalph H. ScheicherCondense Matter Theory Group, Department of Physics and Astronomy, Box 516, Uppsala University S-75120 Uppsala, Sweden, EURajeev AhujaApplied Materials Physics, Department of Materials and Engineering, Royal Institute of Technology (KTH) S-100 44 Stockholm, Sweden, EU
2011en
ABI
Аннотация
Based on the first-principle density functional calculations we predict that Li-doped graphane (prehydrogenated graphene) can be a potential candidate for hydrogen storage. The calculated Li-binding energy on graphane is significantly higher than the Li bulk’s cohesive energy ruling out any possibility of cluster formations in the Li-doped graphane. Our study shows that even with very low concentration (5.56%) of Li doping, the Li-graphane sheet can achieve a reasonable hydrogen storage capacity of 3.23 wt.%. The van der Waals corrected H2 binding energies fall within the range of 0.12–0.29 eV, suitable for practical H2 storage applications.
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