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Posted: Jan 21, 2016
Structures of two dimensional ice predicted by computer simulations
(Nanowerk News) A systematic computer simulation study has led to predictions about how water molecules freeze into a single layer of ice. These simulations, published in Physical Review Letters ("Two Dimensional Ice from First Principles: Structures and Phase Transitions"), reveal several models for 2D ice, including a hexagonal, a Cairo tiling pentagonal, a square and a rhombic structure.
The new 2D ice structures, obtained on the basis of first principles simulations and unbiased structure search methods, extend the knowledge of ice in nature and are potentially important in understanding phenomena such as cloud microphysics and tribology.
The structure of two-dimensional ice built purely from water pentagons. This space filling structure is made possible by arranging water molecules in a so-called Cairo tiling pattern.
The authors also predict a sequence of phase transitions that happens as a function of pressure and confinement, leading to the determination of a phase diagram of 2D ice.
Overall this work provides a fresh perspective on 2D confined ice, highlighting the sensitivity of the structures formed to the confining pressure and confinement width. The observation of the flat square structure supports recent experimental observations of square ice confined within graphene sheets. The authors also discuss how other structures suchas the Cairo tiling pentagonal structure may be observed by slightly altering the conditions used so far in experiments.