Diamond stabilization of ice multilayers at human body temperature | Zendy

Alexander D. WissnerGross | Zendy; Efthimios Kaxiras | Zendy

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Diamond stabilization of ice multilayers at human body temperature

Author(s) -

Alexander D. WissnerGross,

Efthimios Kaxiras

Publication year - 2007

Publication title -

physical review e

Language(s) - English

Resource type - Journals

eISSN - 1550-2376

pISSN - 1539-3755

DOI - 10.1103/physreve.76.020501

Subject(s) - diamond , materials science , melting point , substrate (aquarium) , condensed matter physics , nanotechnology , physics , composite material , geology , oceanography

Diamond is a promising material for wear-resistant medical coatings. Here we report a remarkable increase in the melting point of ice resting on a diamond (111) surface modified with a submonolayer of Na+. Our molecular dynamics simulations show that the interfacial ice bilayer melts at a temperature 130 K higher than in free ice, and relatively thick ice films (2.6 nm at 298 K and 2.2 nm at 310 K ) are stabilized by dipole interactions with the substrate. This unique physical effect may enable biocompatibility-enhancing ice overcoatings for diamond at human body temperature.

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