Litcius/Paper detail

Route to high-$$T_{c}$$ superconductivity of $$\hbox {BC}_{{7}}$$ via strong bonding of boron–carbon compound at high pressure

Prutthipong Tsuppayakorn‐aek, Xiaoyong Yang, Prayoonsak Pluengphon, Wei Luo, Rajeev Ahuja, Thiti Bovornratanaraks

2020Scientific Reports20 citationsDOIOpen Access PDF

Abstract

We have analyzed the compositions of boron-carbon system, in which the [Formula: see text] compound is identified as structural stability at high pressure. The first-principles calculation is used to identify the phase diagram, electronic structure, and superconductivity of [Formula: see text]. Our results have demonstrated that the [Formula: see text] is thermodynamically stable in the diamond-like [Formula: see text] structure at a pressure above 244 GPa, and under temperature also. Feature of chemical bonds between B and C atoms is presented using the electron localization function. The strong chemical bonds in diamond-like [Formula: see text] structure are covalent bonds, and it exhibits the s-p hybridization under the pressure compression. The Fermi surface shape displays the large sheet, indicating that the diamond-like [Formula: see text] phase can achieve a high superconducting transition temperature ([Formula: see text]). The outstanding property of [Formula: see text] at 250 GPa has manifested very high-[Formula: see text] of superconductivity as 164 K, indicating that the carbon-rich system can induce the high-[Formula: see text] value as well.

Topics & Concepts

BoronSuperconductivityHigh pressureCarbon fibersMaterials scienceCrystallographyChemistryPhysicsCondensed matter physicsEngineering physicsOrganic chemistryComposite materialComposite numberBoron and Carbon Nanomaterials ResearchRare-earth and actinide compoundsHigh-pressure geophysics and materials