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W3203531737 endingPage "122001" @default.
W3203531737 startingPage "122001" @default.
W3203531737 abstract "The response of nanoscopic gas phases at solid-liquid interfaces to temperature changes remains unclear. We investigated the interactions between surface nanobubbles and underlying micropancakes upon heating. By atomic force microscopy imaging of the same area before and after heating, we found that the surface nanobubbles exhibited various behaviors upon heating: nucleation, growth, and disappearance. The differences in behavior are attributable to the existence of underlying gas phases, such as micropancakes and adsorbed layers. The nucleation sites of the nanobubbles depend on the positions of the micropancakes. The size of the underlying micropancakes is central to the manner of gas transport between the micropancakes and overlying nanobubbles. We propose that the strongly adsorbed gas layers attract dissolved gas molecules and thereby lead to irreversible growth before and after heating." @default.
W3203531737 created "2021-10-11" @default.
W3203531737 creator A5048428441 @default.
W3203531737 creator A5056123357 @default.
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W3203531737 creator A5073198223 @default.
W3203531737 date "2021-12-01" @default.
W3203531737 modified "2023-10-16" @default.
W3203531737 title "Thermally induced mass transfer between nanobubbles and micropancakes" @default.
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W3203531737 doi "https://doi.org/10.1016/j.ijheatmasstransfer.2021.122001" @default.
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