Strain Enhanced Superconductivity in Li-Doped Graphene

Jelena Pe\v{s}i\'c; Kurt Hingerl; Milivoj Beli\'c; Rado\v{s} Gaji\'c

arxiv: 1412.1968 · v1 · pith:VNJWU2XOnew · submitted 2014-12-05 · ❄️ cond-mat.supr-con · cond-mat.mtrl-sci

Strain Enhanced Superconductivity in Li-Doped Graphene

Jelena Pe\v{s}i\'c , Rado\v{s} Gaji\'c , Kurt Hingerl , Milivoj Beli\'c This is my paper

classification ❄️ cond-mat.supr-con cond-mat.mtrl-sci

keywords graphenestraincriticaleffectsintercalatedlithiumtemperatureadatom

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We present a new way to enhance the electron-phonon coupling constant and the critical superconducting temperature of graphene, significantly beyond all reported values. Using density functional theory, we explore the application effects of the tensile biaxial strain on the lithium intercalated graphene. Both effects together, the presence of adatom and the strain, trigger enhancement of critical temperature, up to 300\%, compared to non-strained lithium intercalated graphene.

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Strain Enhanced Superconductivity in Li-Doped Graphene

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