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Literature DB >> 26684125

Pressure Effect on the Boson Peak in Deeply Cooled Confined Water: Evidence of a Liquid-Liquid Transition.

Zhe Wang¹, Alexander I Kolesnikov², Kanae Ito¹, Andrey Podlesnyak³, Sow-Hsin Chen¹.

Abstract

The boson peak in deeply cooled water confined in nanopores is studied to examine the liquid-liquid transition (LLT). Below ∼180 K, the boson peaks at pressures P higher than ∼3.5 kbar are evidently distinct from those at low pressures by higher mean frequencies and lower heights. Moreover, the higher-P boson peaks can be rescaled to a master curve while the lower-P boson peaks can be rescaled to a different one. These phenomena agree with the existence of two liquid phases with different densities and local structures and the associated LLT in the measured (P, T) region. In addition, the P dependence of the librational band also agrees with the above conclusion.

Entities: Chemical

Year: 2015 PMID： 26684125 DOI： 10.1103/PhysRevLett.115.235701

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

1 in total

1. Boson peak, heterogeneity and intermediate-range order in binary SiO₂-Al₂O₃ glasses.

Authors: Mariana F Ando; Omar Benzine; Zhiwen Pan; Jean-Luc Garden; Katrin Wondraczek; Stephan Grimm; Kay Schuster; Lothar Wondraczek
Journal: Sci Rep Date: 2018-03-29 Impact factor: 4.379

1 in total

Pressure Effect on the Boson Peak in Deeply Cooled Confined Water: Evidence of a Liquid-Liquid Transition.

1. Boson peak, heterogeneity and intermediate-range order in binary SiO2-Al2O3 glasses.

1. Boson peak, heterogeneity and intermediate-range order in binary SiO₂-Al₂O₃ glasses.