First principles molecular dynamics simulations have been performed on water adsorption at the surface of muscovite mica. At monolayer coverage we found water to condense into a fully connected two dimensional hydrogen bond network, which we denote as 2D ice. The structure is stable up to 300 K and it is proposed as a candidate for the solidlike structure recently detected in scanning polarization force microscopy on the hydrated muscovite surface at room temperature [Hu et al., Science 268, 267 (1995)]. © 1997 The American Physical Society.
Odelius, M., Bernasconi, M., Parrinello, M. (1997). Two Dimensional Ice Adsorbed on Mica Surface. PHYSICAL REVIEW LETTERS, 78(14), 2855-2858 [10.1103/PhysRevLett.78.2855].
Two Dimensional Ice Adsorbed on Mica Surface
BERNASCONI, MARCO;
1997
Abstract
First principles molecular dynamics simulations have been performed on water adsorption at the surface of muscovite mica. At monolayer coverage we found water to condense into a fully connected two dimensional hydrogen bond network, which we denote as 2D ice. The structure is stable up to 300 K and it is proposed as a candidate for the solidlike structure recently detected in scanning polarization force microscopy on the hydrated muscovite surface at room temperature [Hu et al., Science 268, 267 (1995)]. © 1997 The American Physical Society.
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