人体温度下冰多层膜的金刚石稳定化

Diamond stabilization of ice multilayers at human body temperature.

作者信息

Wissner-Gross Alexander D, Kaxiras Efthimios

机构信息

Department of Physics, Harvard University, Cambridge, Massachusetts 02138, USA.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2007 Aug;76(2 Pt 1):020501. doi: 10.1103/PhysRevE.76.020501. Epub 2007 Aug 27.

DOI:10.1103/PhysRevE.76.020501

PMID:17929997

Abstract

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.

摘要

钻石是用于耐磨医疗涂层的一种很有前景的材料。在此我们报告，在由亚单层Na⁺修饰的钻石(111)表面上，冰的熔点显著升高。我们的分子动力学模拟表明，界面冰双层在比自由冰高130 K的温度下熔化，并且相对较厚的冰膜（在298 K时为2.6 nm，在310 K时为2.2 nm）通过与基底的偶极相互作用而得以稳定。这种独特的物理效应可能使在人体温度下为钻石制备增强生物相容性的冰外涂层成为可能。