Add to ORKGMolecular dynamics simulations of homogeneous ice nucleation in extended aqueous slabs show that freezing preferentially starts in the subsurface. The top surface layer remains disordered during the freezing process. The subsurface accommodates better than the bulk the increase of volume connected with freezing. It also experiences strong electric fields caused by oriented surface water molecules, which can enhance ice nucleation. Our computational results shed new light on the experimental controversy concerning the bulk vs surface origin of homogeneous ice nucleation in water droplets. This has important atmospheric implications for the microphysics of formation of high altitude clouds.
Understanding the role played by solid surfaces in ice nucleation is a significant step toward desig...
We attempt to explain the experimental and molecular dynamics simulation evidence that suggests that...
Ice formation can have catastrophic consequences for human activity on the ground and in the air. He...
The formation of ice in clouds can occur through primary processes, either homogeneously or heteroge...
This thesis aims to understand the influence of electric fields on ice nucleation. Molecular dynamic...
We report laboratory observations of higher freezing temperatures when an ice-forming nucleus is nea...
Atmospheric aerosols can promote the heterogeneous nucleation of ice, impacting the radiative proper...
Despite its importance in atmospheric science, much remains unknown about the microscopic mechanism ...
Homogeneous nucleation of ice in supercooled water droplets is a stochastic process. In its classica...
Primary ice formation by homogeneous freezing of supercooled cloud droplets in moist adiabatic air p...
Among all of the freezing transitions, that of water into ice is probably the most relevant to biolo...
Heterogeneous ice nucleation is thought to be the primary pathway for the formation of ice in mixed-...
Homogeneous nucleation of ice crystals via freezing of small supercooled solution particles represen...
Understanding the role played by solid surfaces in ice nucleation is a significant step toward desig...
Water droplets in the atmosphere do not freeze homogeneously until -38ºC. Freezing at warmer tempera...
Understanding the role played by solid surfaces in ice nucleation is a significant step toward desig...
We attempt to explain the experimental and molecular dynamics simulation evidence that suggests that...
Ice formation can have catastrophic consequences for human activity on the ground and in the air. He...
The formation of ice in clouds can occur through primary processes, either homogeneously or heteroge...
This thesis aims to understand the influence of electric fields on ice nucleation. Molecular dynamic...
We report laboratory observations of higher freezing temperatures when an ice-forming nucleus is nea...
Atmospheric aerosols can promote the heterogeneous nucleation of ice, impacting the radiative proper...
Despite its importance in atmospheric science, much remains unknown about the microscopic mechanism ...
Homogeneous nucleation of ice in supercooled water droplets is a stochastic process. In its classica...
Primary ice formation by homogeneous freezing of supercooled cloud droplets in moist adiabatic air p...
Among all of the freezing transitions, that of water into ice is probably the most relevant to biolo...
Heterogeneous ice nucleation is thought to be the primary pathway for the formation of ice in mixed-...
Homogeneous nucleation of ice crystals via freezing of small supercooled solution particles represen...
Understanding the role played by solid surfaces in ice nucleation is a significant step toward desig...
Water droplets in the atmosphere do not freeze homogeneously until -38ºC. Freezing at warmer tempera...
Understanding the role played by solid surfaces in ice nucleation is a significant step toward desig...
We attempt to explain the experimental and molecular dynamics simulation evidence that suggests that...
Ice formation can have catastrophic consequences for human activity on the ground and in the air. He...