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Paper detail

Directional bonding explains high conductance values of atomic contacts in bcc metals

Atomic-sized junctions of iron, created by controlled rupture, present unusually high values of conductance compared to other metals. This result is counter-intuitive since, at the nanoscale, body-centered cubic metals are expected to exhibit lower coordination than face-centered cubic metals. In this work, classical molecular dynamics simulations of contact rupture, using an interatomic potential that accounts for directional bonding, yield highly-coordinated stable structures before rupture, unlike an isotropic bonding potential, which results in the expected stable single-atom contacts. Density functional theory electronic transport calculations show that conductance values of these highly coordinated and highly stable structures, can explain the experimentally measured values for conductance of body-centered cubic atomic contacts, thus revealing the important role of directional bonding in these metals.

preprint2019arXivOpen access
W. DednamC. SabaterM. R. CalvoC. UntiedtJ. J. PalaciosA. E. BothaM. J. Caturla
cond-mat.mes-hall
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W. DednamC. SabaterM. R. CalvoC. UntiedtJ. J. PalaciosA. E. BothaM. J. Caturla

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