Density hysteresis of heavy water confined in a nanoporous silica matrix

Yang Zhang; Antonio Faraone; William A. Kamitakahara; Kao Hsiang Liu; Chung Yuan Mou; Juscelino B. Leão; Sung Chang; Sow Hsin Chen

doi:10.1073/pnas.1100238108

Density hysteresis of heavy water confined in a nanoporous silica matrix

Yang Zhang, Antonio Faraone, William A. Kamitakahara, Kao Hsiang Liu, Chung Yuan Mou, Juscelino B. Leão, Sung Chang, Sow Hsin Chen

研究成果: 雜誌貢獻 › 文章 › 同行評審

94 引文斯高帕斯（Scopus）

摘要

A neutron scattering technique was developed to measure the density of heavy water confined in a nanoporous silica matrix in a temperature-pressure range, from 300 to 130 K and from 1 to 2,900 bars, where bulk water will crystalize. We observed a prominent hysteresis phenomenon in the measured density profiles between warming and cooling scans above 1,000 bars. We interpret this hysteresis phenomenon as support (although not a proof) of the hypothetical existence of a first-order liquid-liquid phase transition of water that would exist in the macroscopic system if crystallization could be avoided in the relevant phase region. Moreover, the density data we obtained for the confined heavy water under these conditions are valuable to large communities in biology and earth and planetary sciences interested in phenomena in which nanometer-sized water layers are involved.

原文	英語
頁（從 - 到）	12206-12211
頁數	6
期刊	Proceedings of the National Academy of Sciences of the United States of America
卷	108
發行號	30
DOIs	https://doi.org/10.1073/pnas.1100238108
出版狀態	已發佈 - 7月 26 2011
對外發佈	是

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多學科

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10.1073/pnas.1100238108

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abstract = "A neutron scattering technique was developed to measure the density of heavy water confined in a nanoporous silica matrix in a temperature-pressure range, from 300 to 130 K and from 1 to 2,900 bars, where bulk water will crystalize. We observed a prominent hysteresis phenomenon in the measured density profiles between warming and cooling scans above 1,000 bars. We interpret this hysteresis phenomenon as support (although not a proof) of the hypothetical existence of a first-order liquid-liquid phase transition of water that would exist in the macroscopic system if crystallization could be avoided in the relevant phase region. Moreover, the density data we obtained for the confined heavy water under these conditions are valuable to large communities in biology and earth and planetary sciences interested in phenomena in which nanometer-sized water layers are involved.",

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AU - Zhang, Yang

AU - Faraone, Antonio

AU - Kamitakahara, William A.

AU - Liu, Kao Hsiang

AU - Mou, Chung Yuan

AU - Leão, Juscelino B.

AU - Chang, Sung

AU - Chen, Sow Hsin

PY - 2011/7/26

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Density hysteresis of heavy water confined in a nanoporous silica matrix

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