Add to ORKGIce and ice clathrate are not only omnipresent across polar regions of Earth or under terrestrial oceans but also ubiquitous in the solar system such as on comets, asteroids, or icy moons of the giant planets. Depending on the surrounding environment (temperature and pressure), ice alone exhibits an exceptionally rich and complicated phase diagram with 17 known crystalline polymorphs.Water molecules also form clathrate compounds with inclusion of guest molecules, such as cubic structure I (s-I), cubic structure II (s-II), hexagonal structure H (s-H), tetragonal structure T (s-T), and tetragonal structure K (s-K). Recently, guest-free clathrate structure II (s-II), also known as ice XVI located in the negative-pressure region of the phase di...
Water is the most abundant liquid on earth and also the substance with the largest number of anomali...
Ice has a very rich phase diagram (Petrenko and Whitworth 1999) as shown in Figure 1. Up to now, six...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
Ice and ice clathrate are not only omnipresent across polar regions of Earth or under terrestrial oc...
We investigate high-pressure ice phases using molecular dynamics simulations. Spontaneous nucleation...
Thermodynamic and mechanical stabilities of various ultralow-density ices are examined using compute...
We report a new ice phase that forms spontaneously at the interface between ice VII and liquid water...
The homogeneous crystallization of water at low temperature is believed to occur through the direct ...
Ice is one of the most extensively studied condensed matter systems. Yet, both experimentally and th...
From discussion of the structure of liquid water, we deduce that water under ambient condition is ma...
Ordinary water ice forms under ambient conditions and has two polytypes, hexagonal ice (Ih) and cubi...
Water can form a vast number of topological frameworks owing to its hydrogen-bonding ability, with 1...
Water has more than two glassy states, including low-density amorphous (LDA) and high-density amorph...
The origin of water anomalies hides in an experimentally inaccessible region of the phase diagram kn...
Water is the most abundant liquid on earth and also the substance with the largest number of anomali...
Water is the most abundant liquid on earth and also the substance with the largest number of anomali...
Ice has a very rich phase diagram (Petrenko and Whitworth 1999) as shown in Figure 1. Up to now, six...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
Ice and ice clathrate are not only omnipresent across polar regions of Earth or under terrestrial oc...
We investigate high-pressure ice phases using molecular dynamics simulations. Spontaneous nucleation...
Thermodynamic and mechanical stabilities of various ultralow-density ices are examined using compute...
We report a new ice phase that forms spontaneously at the interface between ice VII and liquid water...
The homogeneous crystallization of water at low temperature is believed to occur through the direct ...
Ice is one of the most extensively studied condensed matter systems. Yet, both experimentally and th...
From discussion of the structure of liquid water, we deduce that water under ambient condition is ma...
Ordinary water ice forms under ambient conditions and has two polytypes, hexagonal ice (Ih) and cubi...
Water can form a vast number of topological frameworks owing to its hydrogen-bonding ability, with 1...
Water has more than two glassy states, including low-density amorphous (LDA) and high-density amorph...
The origin of water anomalies hides in an experimentally inaccessible region of the phase diagram kn...
Water is the most abundant liquid on earth and also the substance with the largest number of anomali...
Water is the most abundant liquid on earth and also the substance with the largest number of anomali...
Ice has a very rich phase diagram (Petrenko and Whitworth 1999) as shown in Figure 1. Up to now, six...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...