Prediction Of Superconductivity At 70 K In A Pristine Monolayer Of Libc
PHYSICAL REVIEW B(2021)
Abstract
Search of high-temperature superconductors has gained huge impetus since the discovery of superconductivity in bulk MgB2. These efforts led to the synthesis of high-T-C materials in the megabar pressure region. However, the ultimate goal of a room-conditions superconductor is still elusive. Toward this, a class of two-dimensional (2D) superconductors is emerging as a fertile field of research. In this paper, by solving fully anisotropic Migdal-Eliashberg equations, we show that a pristine monolayer (ML) of LiBC will be a Bardeen-Cooper-Schrieffer-type superconductor with a record-breaking T-C of 70 K among pure 2D superconductors. The critical temperature could be further increased by hydrogenation of the ML. Analysis of the electronic properties indicates the partial change of B-C covalent bonding from sp(2) to sp(3) type on bulk-to-ML transformation. This paper presents a proposal to metalize the LiBC system, which was long been predicted to show superconductivity in its bulk form with 50% Li site vacancies. This system might be useful for the design and development of high-T-C 2D superconductors that could be applied in devices like quantum interferometers, superconducting qubits, or superconducting transistors.
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Key words
superconductivity,pristine monolayer,libc
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