Two Calorimetrically Distinct States of Liquid Water Below 150 Kelvin
- 5 July 1996
- journal article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 273 (5271) , 90-92
- https://doi.org/10.1126/science.273.5271.90
Abstract
Vapor-deposited amorphous solid and hyperquenched glassy water were found to irreversibly transform, on compression at 77 kelvin, to a high-density amorphous solid. On heating at atmospheric pressure, this solid became viscous water (water B), with a reversible glass-liquid transition onset at 129 ± 2 kelvin. A different form of viscous water (water A) was formed by heating the uncompressed vapor-deposited amorphous solid and hyperquenched liquid water. On thermal cycling up to 148 kelvin, water B remained kinetically and thermodynamically distinct from water A. The occurrence of these two states, which do not interconvert, helps explain both the configurational relaxation of water and stress-induced amorphization.Keywords
This publication has 51 references indexed in Scilit:
- Shear Viscosity and Self-Diffusion Evidence for High Concentrations of Hydrogen-Bonded Clathrate-like Structures in Very Highly Supercooled Liquid WaterThe Journal of Physical Chemistry, 1995
- Phase transition and entropy of amorphous icesThe Journal of Chemical Physics, 1995
- Glass .fwdarw. Liquid Transition and Devitrification of LiCl.cntdot.11H2O Solution and of Hyperquenched and Vapor-Deposited WaterThe Journal of Physical Chemistry, 1995
- Phase diagram for amorphous solid waterPhysical Review E, 1993
- Liquid water with an ab initio potential: X-ray and neutron scattering from 238 to 368 KThe Journal of Chemical Physics, 1992
- Computational study of formation dynamics and structure of amorphous ice condensatesThe Journal of Chemical Physics, 1990
- Calorimetric study of pressure-amorphized cubic iceThe Journal of Physical Chemistry, 1990
- Structure of High-Density Amorphous Ice by Neutron DiffractionPhysical Review Letters, 1986
- Vitrified dilute aqueous solutions. 1. Infrared spectra of alkali metal nitrates and perchlorates as solutesThe Journal of Physical Chemistry, 1986
- Connectivity of hydrogen bonds in liquid waterThe Journal of Chemical Physics, 1984