Accurate, Large-Scale Density Functional Melting of Hg: Relativistic Effects Decrease Melting Temperature by 160 K.

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Abstract

Using first-principles calculations and the "interface pinning" method in large-scale density functional molecular dynamics simulations of bulk melting, we prove that mercury is a liquid at room temperature due to relativistic effects. The relativistic model gives a melting temperature of 241 K, in excellent agreement with the experimental temperature of 234 K. The nonrelativistic melting temperature is remarkably high at 402 K.

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Journal

Journal ID (iso-abbrev): J Phys Chem Lett

Title: The journal of physical chemistry letters

Publisher: American Chemical Society (ACS)

ISSN (Electronic): 1948-7185

ISSN (Print): 1948-7185

Publication date (Electronic): Apr 06 2017

Volume: 8

Issue: 7

Affiliations

[1 ] Centre for Theoretical Chemistry and Physics, The New Zealand Institute for Advanced Study and the Institute of Natural and Mathematical Sciences, Massey University Auckland , Private Bag 102904, 0632 Auckland, New Zealand.

Article

DOI: 10.1021/acs.jpclett.7b00354

PubMed ID: 28285532

SO-VID: dafdba4c-6bbf-4f92-be54-4151db6bf45d

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