Add to ORKGWe have summarized some of the recent results, including studies for bulk, confined and interfacial water. By analyzing a cell model within a mean field approximation and with Monte Carlo simulations, we have showed that all the scenarios proposed for water's P-T phase diagram may be viewed as special cases of a more general scheme. In particular, our study shows that it is the relationship between H bond strength and H bond cooperativity that governs which scenario is valid. The investigation of the properties of metastable liquid water under pressure could provide essential information that could allow us to understand the mechanisms ruling the anomalous behavior of water. This understanding could, ultimately, lead us to the explanation o...
Liquid water is considered poorly understood. How are water's physical properties encoded in its mol...
International audienceWater is famous for its anomalies, most of which become dramatic in the superc...
We investigate high-pressure ice phases using molecular dynamics simulations. Spontaneous nucleation...
We have summarized some of the recent results, including studies for bulk, confined and interfacial ...
Pressure is extremely efficient to tune intermolecular interactions, allowing the study of the mecha...
Pressure is extremely efficient to tune intermolecular interactions, allowing the study of the mecha...
Pressure is extremely efficient to tune intermolecular interactions, allowing the study of the mecha...
Four scenarios have been proposed for the low-temperature phase behavior of liquid water, each predi...
Four scenarios have been proposed for the low-temperature phase behavior of liquid water, each predi...
We have combined a computational search strategy with first-principles density-functional-theory cal...
Water is an unusual liquid. It expands upon freezing, has minima in its volume, heat capacity, and i...
Water’s behavior differs from that of normal fluids, having more than sixty anomalies. Simulations a...
Explicit study of the hydrogen bond network in water offers a microscopic approach to understanding ...
We study a coarse-grained model for a water monolayer that cannot crystallize due to the presence of...
We study a coarse-grained model for a water monolayer that cannot crystallize due to the presence of...
Liquid water is considered poorly understood. How are water's physical properties encoded in its mol...
International audienceWater is famous for its anomalies, most of which become dramatic in the superc...
We investigate high-pressure ice phases using molecular dynamics simulations. Spontaneous nucleation...
We have summarized some of the recent results, including studies for bulk, confined and interfacial ...
Pressure is extremely efficient to tune intermolecular interactions, allowing the study of the mecha...
Pressure is extremely efficient to tune intermolecular interactions, allowing the study of the mecha...
Pressure is extremely efficient to tune intermolecular interactions, allowing the study of the mecha...
Four scenarios have been proposed for the low-temperature phase behavior of liquid water, each predi...
Four scenarios have been proposed for the low-temperature phase behavior of liquid water, each predi...
We have combined a computational search strategy with first-principles density-functional-theory cal...
Water is an unusual liquid. It expands upon freezing, has minima in its volume, heat capacity, and i...
Water’s behavior differs from that of normal fluids, having more than sixty anomalies. Simulations a...
Explicit study of the hydrogen bond network in water offers a microscopic approach to understanding ...
We study a coarse-grained model for a water monolayer that cannot crystallize due to the presence of...
We study a coarse-grained model for a water monolayer that cannot crystallize due to the presence of...
Liquid water is considered poorly understood. How are water's physical properties encoded in its mol...
International audienceWater is famous for its anomalies, most of which become dramatic in the superc...
We investigate high-pressure ice phases using molecular dynamics simulations. Spontaneous nucleation...