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• W2095685211 endingPage "1878" @default.
• W2095685211 startingPage "1870" @default.
• W2095685211 abstract "Using nuclear magnetic resonance and quasi-elastic neutron scattering spectroscopic techniques, we obtain experimental evidence of a well-defined dynamic crossover temperature TL in supercooled water. We consider three different geometrical environments: (i) water confined in a nanotube (quasi-one-dimensional water), (ii) water in the first hydration layer of the lysozyme protein (quasi-two-dimensional water), and (iii) water in a mixture with methanol at a methanol molar fraction of x = 0.22 (quasi-three-dimensional water). The temperature predicted using a power law approach to analyze the bulk water viscosity in the super-Arrhenius regime defines the fragile-to-strong transition and the Stokes−Einstein relation breakdown recently observed in confined water. Our experiments show that these observed processes are independent of the system dimension d and are instead caused by the onset of an extended hydrogen-bond network that governs the dynamical properties of water as it approaches dynamic arrest." @default.
• W2095685211 created "2016-06-24" @default.
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• W2095685211 date "2010-01-08" @default.
• W2095685211 modified "2023-10-14" @default.
• W2095685211 title "Dynamical Crossover and Breakdown of the Stokes−Einstein Relation in Confined Water and in Methanol-Diluted Bulk Water" @default.
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• W2095685211 doi "https://doi.org/10.1021/jp910038j" @default.
• W2095685211 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20058894" @default.

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