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W2469980147 abstract "Ice films formed at mineral surfaces are of widespread occurrence in nature and are involved in numerous atmospheric and terrestrial processes. In this study, we studied thin ice films at surfaces of 19 synthetic and natural mineral samples of varied structure and composition. These thin films were formed by sublimation of thicker hexagonal ice overlayers mostly produced by freezing wet pastes of mineral particles at -10 and -50 °C. Vibration spectroscopy revealed that thin ice films contained smaller populations of strongly hydrogen-bonded water molecules than in hexagonal ice and liquid water. Thin ice films at the surfaces of the majority of minerals considered in this work [i.e., metal (oxy)(hydr)oxides, phyllosilicates, silicates, volcanic ash, Arizona Test Dust] produced intense O-H stretching bands at ∼3400 cm(-1), attenuated bands at ∼3200 cm(-1), and liquid-water-like bending band at ∼1640 cm(-1) irrespective of structure and composition. Illite, a nonexpandable phyllosilicate, is the only mineral that stabilized a form of ice that was strongly resilient to sublimation in temperatures as low as -50 °C. As mineral-bound thin ice films are the substrates upon which ice grows from water vapor or aqueous solutions, this study provides new constraints from which their natural occurrences can be understood." @default.
W2469980147 created "2016-07-22" @default.
W2469980147 creator A5028158469 @default.
W2469980147 creator A5080426486 @default.
W2469980147 date "2016-07-14" @default.
W2469980147 modified "2023-10-17" @default.
W2469980147 title "Thin Ice Films at Mineral Surfaces" @default.
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W2469980147 doi "https://doi.org/10.1021/acs.jpclett.6b01037" @default.
W2469980147 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27377606" @default.
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