Add to ORKGIce surfaces are characterized by pre-melted quasi-liquid layers (QLLs), which mediate both crystal growth processes and interactions with external agents. Understanding QLLs at the molecular level is necessary to unravel the mechanisms of ice crystal formation. Computational studies of the QLLs heavily rely on the accuracy of the methods employed for identifying the local molecular environment and arrangements, discriminating between solid-like and liquid-like water molecules. Here we compare the results obtained using different order parameters to characterize the QLLs on hexagonal ice (Ih) and cubic ice (Ic) model surfaces investigated with molecular dynamics (MD) simulations in a range of temperatures. For the classification task, in ad...
Ice plays crucially important roles in various phenomena because of its abundance on Earth. However,...
Exercising control over the formation of ice and similar crystalline structures is important in avar...
Surface melting of ice crystals proceeds below the melting point (0 °C) and forms thin liquid water ...
In this study, the solid-vapor equilibrium and the quasi liquid layer (QLL) of ice Ih exposing the b...
We characterized the structural and dynamical properties of the quasi-liquid layer (QLL) at the surf...
ConspectusThe ice premelt, often called the quasi-liquid layer (QLL), is key for the lubrication of ...
Surfaces of ice are covered with thin liquid water layers, called quasi-liquid layers (QLLs), even b...
Ice crystal surfaces melt at temperatures below 0 °C, and then quasi-liquid layers (QLLs) are formed...
We characterized the structural and dynamical properties of the quasi-liquid layer (QLL) at the surf...
We perform computer simulations of the quasiliquid layer of ice formed at the ice-vapor interface cl...
A vast amount of ice exists on the earth, and surface melting of ice forms thin liquid water layers,...
I will be investigating the key processes associated with the vicinal growth of ice crystals and how...
Frozen water has a quasi-liquid layer at its surface that exists even well below the bulk melting te...
In this work, we present new results of atomic force microscopy (AFM) force curves over pure...
In this paper we study the structure of the ice/vapor interface in the neighborhood of the triple po...
Ice plays crucially important roles in various phenomena because of its abundance on Earth. However,...
Exercising control over the formation of ice and similar crystalline structures is important in avar...
Surface melting of ice crystals proceeds below the melting point (0 °C) and forms thin liquid water ...
In this study, the solid-vapor equilibrium and the quasi liquid layer (QLL) of ice Ih exposing the b...
We characterized the structural and dynamical properties of the quasi-liquid layer (QLL) at the surf...
ConspectusThe ice premelt, often called the quasi-liquid layer (QLL), is key for the lubrication of ...
Surfaces of ice are covered with thin liquid water layers, called quasi-liquid layers (QLLs), even b...
Ice crystal surfaces melt at temperatures below 0 °C, and then quasi-liquid layers (QLLs) are formed...
We characterized the structural and dynamical properties of the quasi-liquid layer (QLL) at the surf...
We perform computer simulations of the quasiliquid layer of ice formed at the ice-vapor interface cl...
A vast amount of ice exists on the earth, and surface melting of ice forms thin liquid water layers,...
I will be investigating the key processes associated with the vicinal growth of ice crystals and how...
Frozen water has a quasi-liquid layer at its surface that exists even well below the bulk melting te...
In this work, we present new results of atomic force microscopy (AFM) force curves over pure...
In this paper we study the structure of the ice/vapor interface in the neighborhood of the triple po...
Ice plays crucially important roles in various phenomena because of its abundance on Earth. However,...
Exercising control over the formation of ice and similar crystalline structures is important in avar...
Surface melting of ice crystals proceeds below the melting point (0 °C) and forms thin liquid water ...