Several studies have demonstrated interest in creating surfaces with improved water interaction and adaptive properties because the behavior of water confined at the nanoscale plays a significant role in the synthesis of materials for technological applications. Remarkably, confinement at the nanoscale significantly modifies the characteristics of water. We determine the phase diagram of water contained by graphene stack sheets in slab form, at T=300 K, and for a constant pressure using molecular dynamics simulations. We discover that, as shown in the simulation, water can exist in both the liquid and vapor phases depending on the confining geometry and compressibility ratio. We also pay attention to how stable the interacting liquid is in ...
Evaluation of the tensile/compression limit of a solid under conditions of tension or compression is...
Water is known as the most common and complicated liquid on earth. Meanwhile, graphene, defined as s...
Water confined at the nanoscale has been the focus of numerous experimental and theoretical investig...
The behavior of water confined at the nanoscale plays a fundamental role in biological processes and...
The behavior of water confined at the nanoscale plays a fundamental role in biological processes and...
Experiments of nanoconfined water between graphene sheets at high pressure suggest that it forms a s...
The structure and dynamics of water under a geometric confinement is of great significance due to it...
The phase diagram of water is complex, and interfacial effects can stabilize unusual structures at t...
Equilibrium molecular dynamics simulations are used to investigate the effect of phase transitions o...
Click on the DOI link to access the article (may not be free).Fundamental understanding of water con...
Confined water can have properties dramatically different from bulk water, and these properties can ...
Click on the DOI link to access the article (may not be free).Fundamental understanding of the water...
The behavior of water under confinement is of utmost importance for the field of electrocatalysis, n...
Water structure and dynamics are affected by the presence of a nearby interface. Here, first we rev...
Environmental control on graphene is becoming increasingly necessary to study fundamental processes ...
Evaluation of the tensile/compression limit of a solid under conditions of tension or compression is...
Water is known as the most common and complicated liquid on earth. Meanwhile, graphene, defined as s...
Water confined at the nanoscale has been the focus of numerous experimental and theoretical investig...
The behavior of water confined at the nanoscale plays a fundamental role in biological processes and...
The behavior of water confined at the nanoscale plays a fundamental role in biological processes and...
Experiments of nanoconfined water between graphene sheets at high pressure suggest that it forms a s...
The structure and dynamics of water under a geometric confinement is of great significance due to it...
The phase diagram of water is complex, and interfacial effects can stabilize unusual structures at t...
Equilibrium molecular dynamics simulations are used to investigate the effect of phase transitions o...
Click on the DOI link to access the article (may not be free).Fundamental understanding of water con...
Confined water can have properties dramatically different from bulk water, and these properties can ...
Click on the DOI link to access the article (may not be free).Fundamental understanding of the water...
The behavior of water under confinement is of utmost importance for the field of electrocatalysis, n...
Water structure and dynamics are affected by the presence of a nearby interface. Here, first we rev...
Environmental control on graphene is becoming increasingly necessary to study fundamental processes ...
Evaluation of the tensile/compression limit of a solid under conditions of tension or compression is...
Water is known as the most common and complicated liquid on earth. Meanwhile, graphene, defined as s...
Water confined at the nanoscale has been the focus of numerous experimental and theoretical investig...