83 research outputs found

    Stress concentration effects in micropolar elasticity Technical report no. 8-4

    Get PDF
    Stress concentration around circular hole in infinite plate subject to axial tensio

    Electronic Properties of Boron and Nitrogen doped graphene: A first principles study

    Full text link
    Effect of doping of graphene either by Boron (B), Nitrogen (N) or co-doped by B and N is studied using density functional theory. Our extensive band structure and density of states calculations indicate that upon doping by N (electron doping), the Dirac point in the graphene band structure shifts below the Fermi level and an energy gap appears at the high symmetric K-point. On the other hand, by B (hole doping), the Dirac point shifts above the Fermi level and a gap appears. Upon co-doping of graphene by B and N, the energy gap between valence and conduction bands appears at Fermi level and the system behaves as narrow gap semiconductor. Obtained results are found to be in well agreement with available experimental findings.Comment: 11 pages, 4 figures, 1 table, submitted to J. Nanopart. Re

    Substrate enhanced superconductivity in Li-decorated graphene

    Full text link
    We investigate the role of the substrate for the strength of the electon phonon coupling in Li-decorated graphene. We find that the interaction with a hh-BN substrate leads to a significant enhancement from λ0=0.62\lambda_0=0.62 to λ1=0.67\lambda_1=0.67, which corresponds to a 25%25\% increase of the transition temperature from Tc0=10.33T_{c0}=10.33 K to Tc1=12.98T_{c1}=12.98 K. The superconducting gaps amount to 1.56 meV (suspended) and 1.98 meV (supported). These findings open up a new route to enhanced superconducting transition temperatures in graphene-based materials by substrate engineering.Comment: 11 pages, 3 figures, and 1 tabl
    • …
    corecore