Add to ORKGHexagonal ice crystals formed in frozen biological specimens are large and branched. They can produce severe structural damage by solute segregation but there are also cases where they seem to cause only minor damage. When cooling is more rapid, cubic ice crystals can be formed. These are small and in general, they cause little damage. These observations can be readily explained with the hypothesis that large hexagonal ice crystals can originate from the rewarming induced transformation of a large number of cubic ice crystals. This transformation would take place without significant solute displacement
The freezing of water affects the processes that determine Earth's climate. Therefore, accurate weat...
The controlled cooling of biological materials to subzero temperatures involves passage through seve...
Traditionally, ice I was considered to exist in two well-defined crystalline forms at ambient pressu...
Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produc...
Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produc...
There is much debate around the temperature and conditions at which metastable cubic ice forms and t...
227 pagesX-ray crystallography is the predominant method for macromolecular structure determination....
Cubic ice I-c is metastable, yet can form by the freezing of supercooled water, vapour deposition at...
In this paper we show that the ice crystal growth in food and biomaterials is a function of the free...
Diffraction data acquired from cryocooled protein crystals often include diffraction from ice. Analy...
Abstract. We have investigated the formation of 10-50 mm long “ice spikes ” that sometimes appear on...
There is growing evidence that a metastable phase of ice, cubic ice, plays an important role in the ...
Three issues are critical for successful cryopreservation of multicellular material: gases dissolved...
To estimate theoretically how suited different freezing techniques are for freezing of freeze-etch s...
Understanding how ice nucleates and grows into larger crystals is of crucial importance for many res...
The freezing of water affects the processes that determine Earth's climate. Therefore, accurate weat...
The controlled cooling of biological materials to subzero temperatures involves passage through seve...
Traditionally, ice I was considered to exist in two well-defined crystalline forms at ambient pressu...
Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produc...
Hexagonal ice crystals formed in frozen biological specimens are large and branched. They can produc...
There is much debate around the temperature and conditions at which metastable cubic ice forms and t...
227 pagesX-ray crystallography is the predominant method for macromolecular structure determination....
Cubic ice I-c is metastable, yet can form by the freezing of supercooled water, vapour deposition at...
In this paper we show that the ice crystal growth in food and biomaterials is a function of the free...
Diffraction data acquired from cryocooled protein crystals often include diffraction from ice. Analy...
Abstract. We have investigated the formation of 10-50 mm long “ice spikes ” that sometimes appear on...
There is growing evidence that a metastable phase of ice, cubic ice, plays an important role in the ...
Three issues are critical for successful cryopreservation of multicellular material: gases dissolved...
To estimate theoretically how suited different freezing techniques are for freezing of freeze-etch s...
Understanding how ice nucleates and grows into larger crystals is of crucial importance for many res...
The freezing of water affects the processes that determine Earth's climate. Therefore, accurate weat...
The controlled cooling of biological materials to subzero temperatures involves passage through seve...
Traditionally, ice I was considered to exist in two well-defined crystalline forms at ambient pressu...