http://harvardscience.harvard.edu/stories/person/4664 Stories and external links referencing a person (RSS) en http://harvardscience.harvard.edu/engineering-technology/articles/hot-ice-could-lead-medical-device <!--paging_filter--><p>Harvard physicists have shown that specially treated diamond coatings can keep water frozen at body temperature, a finding that may have applications in future medical implants.</p><p>Doctoral student Alexander Wissner-Gross and Efthimios Kaxiras, physics professor and Gordon McKay Professor of Applied Physics, spent a year building and examining computer models that showed that a layer of diamond coated with sodium atoms will keep water frozen up to 108 degrees Fahrenheit.</p><p>In ice, water molecules are arranged in a rigid framework that gives the substance its hardness. The process of melting is somewhat like a building falling down: pieces that had been arranged into a rigid structure move and flow against one another, becoming liquid water.</p><p><a href="http://harvardscience.harvard.edu/engineering-technology/articles/hot-ice-could-lead-medical-device">read more</a></p> Mon, 01 Oct 2007 15:28:19 -0400 50443248 7459 at http://harvardscience.harvard.edu