Add to ORKGThere is much debate around the temperature and conditions at which metastable cubic ice forms and transitions to hexagonal ice. Recently, a third form existing at one atmosphere, known as stacking disorder ice, has also been discussed. There is no doubt that these forms of ice are significant in atmospheric science as they may even be the dominant form of ice in some clouds. However, do they play any role in cryobiology? We have recently learned how to make cubic ice in large quantities in such a way that the second order phase transition is readily analysed. The results presented here will enable cryobiology researchers to look with renewed interest at both historical data and new results in order to define the importance, or otherwise, o...
With climate modeling predicting a raise of at least 2°C by year 2100, the fate of ice has become a ...
Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produc...
Crystallization of ice from deeply supercooled water and amorphous ices - a process of fundamental i...
Traditionally, ice I was considered to exist in two well-defined crystalline forms at ambient pressu...
There is growing evidence that a metastable phase of ice, cubic ice, plays an important role in the ...
Cubic ice I-c is metastable, yet can form by the freezing of supercooled water, vapour deposition at...
The freezing of water to ice is fundamentally important to fields as diverse as cloud formation to c...
The freezing of water affects the processes that determine Earth's climate. Therefore, accurate weat...
Under conditions commonly found in Earth's atmosphere, water can form two solid phases; hexagonal ic...
Two most known ice phases, cubic (Ic) and hexagonal ice (Ih), are observed to coexist over a surpris...
The homogeneous crystallization of water at low temperature is believed to occur through the direct ...
Cubic ice is said to have stacking disorder when the H2O sequences in its structure (space group Fd ...
Ice clouds form in the summer high latitude mesopause region, which is the coldest part of the Earth...
Ordinary water ice forms under ambient conditions and has two polytypes, hexagonal ice (Ih) and cubi...
With climate modeling predicting a raise of at least 2°C by year 2100, the fate of ice has become a ...
Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produc...
Crystallization of ice from deeply supercooled water and amorphous ices - a process of fundamental i...
Traditionally, ice I was considered to exist in two well-defined crystalline forms at ambient pressu...
There is growing evidence that a metastable phase of ice, cubic ice, plays an important role in the ...
Cubic ice I-c is metastable, yet can form by the freezing of supercooled water, vapour deposition at...
The freezing of water to ice is fundamentally important to fields as diverse as cloud formation to c...
The freezing of water affects the processes that determine Earth's climate. Therefore, accurate weat...
Under conditions commonly found in Earth's atmosphere, water can form two solid phases; hexagonal ic...
Two most known ice phases, cubic (Ic) and hexagonal ice (Ih), are observed to coexist over a surpris...
The homogeneous crystallization of water at low temperature is believed to occur through the direct ...
Cubic ice is said to have stacking disorder when the H2O sequences in its structure (space group Fd ...
Ice clouds form in the summer high latitude mesopause region, which is the coldest part of the Earth...
Ordinary water ice forms under ambient conditions and has two polytypes, hexagonal ice (Ih) and cubi...
With climate modeling predicting a raise of at least 2°C by year 2100, the fate of ice has become a ...
Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produc...
Crystallization of ice from deeply supercooled water and amorphous ices - a process of fundamental i...