dc.citation.conferencePlace |
KO |
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dc.citation.title |
2nd SNU Workshop on Ice Chemistry and Physics |
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dc.contributor.author |
Kim, Chae Un |
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dc.date.accessioned |
2024-02-01T01:38:35Z |
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dc.date.available |
2024-02-01T01:38:35Z |
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dc.date.created |
2018-12-19 |
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dc.date.issued |
2018-07-16 |
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dc.description.abstract |
Water has more than two glassy states, including low-density amorphous (LDA) and high-density amorphous (HDA) ice. The glass-to-liquid transition in these polyamorphic forms of ice is the focus of theories proposed to explain anomalous properties of supercooled water. The phase behavior of HDA ice was studied by X-ray diffraction. The HDA ice was induced by rapidly cryocooling water (either in bulk state or in confined state such as in protein crystals) from room temperature to 77K under hydrostatic pressure (200 MPa) using the high pressure cryocooling method. The X-ray diffraction study of HDA ice confined in the high-pressure cryocooled protein crystals revealed that it converts to low-density amorphous (LDA) ice upon warming (from 80 to 160K at 0.1 MPa), while showing the characteristics of a first order phase transition (1). Furthermore, it was discovered that protein molecules in the high-pressure cryocooled protein crystals execute dynamical fluctuations during the water phase transition, suggesting a liquid or mobile state of water between HDA and LDA ice (2). The results support the theories that LDA and HDA ice are thermodynamically distinct and continuously connected to two different liquid states of water (3). |
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dc.identifier.bibliographicCitation |
2nd SNU Workshop on Ice Chemistry and Physics |
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dc.identifier.uri |
https://scholarworks.unist.ac.kr/handle/201301/81150 |
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dc.language |
영어 |
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dc.publisher |
서울대학교 |
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dc.title |
Phase Behavior of Glassy Water at Cryogenic Temperatures |
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dc.type |
Conference Paper |
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dc.date.conferenceDate |
2018-07-16 |
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