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Literature DB >> 26884165

Crossover from metal to insulator in dense lithium-rich compound CLi4.

Xilian Jin¹, Xiao-Jia Chen², Tian Cui¹, Ho-kwang Mao³, Huadi Zhang⁴, Quan Zhuang⁴, Kuo Bao⁴, Dawei Zhou⁵, Bingbing Liu⁴, Qiang Zhou⁴, Zhi He⁴.

Abstract

At room environment, all materials can be classified as insulators or metals or in-between semiconductors, by judging whether they are capable of conducting the flow of electrons. One can expect an insulator to convert into a metal and to remain in this state upon further compression, i.e., pressure-induced metallization. Some exceptions were reported recently in elementary metals such as all of the alkali metals and heavy alkaline earth metals (Ca, Sr, and Ba). Here we show that a compound of CLi4 becomes progressively less conductive and eventually insulating upon compression based on ab initio density-functional theory calculations. An unusual path with pressure is found for the phase transition from metal to semimetal, to semiconductor, and eventually to insulator. The Fermi surface filling parameter is used to describe such an antimetallization process.

Entities: Chemical

Keywords: antimetallization; high pressure; lithium-rich compound

Year: 2016 PMID： 26884165 PMCID： PMC4780637 DOI： 10.1073/pnas.1525412113

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

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