First principle study of inducing superconductivity in α-graphyne by hole-doping and biaxial tensile strain

Toktam Morshedloo; Mahmood Rezaee Roknabadi; Mohammad Behdani; Mohsen Modarresi; Ali Kazempour

doi:10.1016/j.commatsci.2016.07.002

What is it about?

First-principle calculations within Eliashberg theory framework have been utilized to investigate theoret- ically the effect of hole-doping along with applying strain on superconductivity in a-graphyne and gra- phene

Perspectives

we demonstrate that it is not possible to induce superconduc-tivity in a-graphyne by the conspiracy of 12.5% hole-doping and critical strain (8%) contrary to 12.5% hole-doped graphene under critical strain (12%) which becomes superconductor with TC ~12 K.
Ali Kazempour
Payame Noor University

This page is a summary of: First principle study of inducing superconductivity in α-graphyne by hole-doping and biaxial tensile strain, Computational Materials Science, November 2016, Elsevier,
DOI: 10.1016/j.commatsci.2016.07.002.
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Ali Kazempour
Payame Noor University

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