How bulk nanobubbles might survive
The existence of bulk nanobubbles has long been regarded with scepticism, due to the limitations of experimental techniques and the widespread assumption that spherical bubbles cannot achieve stable equilibrium. We develop a model for the stability of bulk nanobubbles based on the experimental obser...
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sg-ntu-dr.10356-1450212020-12-08T08:50:59Z How bulk nanobubbles might survive Tan, Beng Hau An, Hongjie Ohl, Claus-Dieter School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Bulk Nanobubbles Ionic Concentration The existence of bulk nanobubbles has long been regarded with scepticism, due to the limitations of experimental techniques and the widespread assumption that spherical bubbles cannot achieve stable equilibrium. We develop a model for the stability of bulk nanobubbles based on the experimental observation that the zeta potential of spherical bubbles abruptly diverges from the planar value below 10 μm. Our calculations recover three persistently reported-but disputed-properties of bulk nanobubbles: that they stabilize at a typical radius of ∼100 nm, that this radius is bounded below 1 μm, and that it increases with ionic concentration. Published version 2020-12-08T08:50:59Z 2020-12-08T08:50:59Z 2020 Journal Article Tan, B. H., An, H., & Ohl, C.-D. (2020). How bulk nanobubbles might survive. Physical Review Letters, 124(13), 134503-. doi:10.1103/PhysRevLett.124.134503 0031-9007 https://hdl.handle.net/10356/145021 10.1103/PhysRevLett.124.134503 32302159 13 124 en Physical Review Letters © 2020 American Physical Society. All rights reserved. This paper was published in Physical Review Letters and is made available with permission of American Physical Society. application/pdf |
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Engineering::Mechanical engineering Bulk Nanobubbles Ionic Concentration Tan, Beng Hau An, Hongjie Ohl, Claus-Dieter How bulk nanobubbles might survive |
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The existence of bulk nanobubbles has long been regarded with scepticism, due to the limitations of experimental techniques and the widespread assumption that spherical bubbles cannot achieve stable equilibrium. We develop a model for the stability of bulk nanobubbles based on the experimental observation that the zeta potential of spherical bubbles abruptly diverges from the planar value below 10 μm. Our calculations recover three persistently reported-but disputed-properties of bulk nanobubbles: that they stabilize at a typical radius of ∼100 nm, that this radius is bounded below 1 μm, and that it increases with ionic concentration. |
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School of Mechanical and Aerospace Engineering |
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School of Mechanical and Aerospace Engineering Tan, Beng Hau An, Hongjie Ohl, Claus-Dieter |
| format |
Article |
| author |
Tan, Beng Hau An, Hongjie Ohl, Claus-Dieter |
| author_sort |
Tan, Beng Hau |
| title |
How bulk nanobubbles might survive |
| title_short |
How bulk nanobubbles might survive |
| title_full |
How bulk nanobubbles might survive |
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How bulk nanobubbles might survive |
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How bulk nanobubbles might survive |
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how bulk nanobubbles might survive |
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2020 |
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https://hdl.handle.net/10356/145021 |
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1688665538087092224 |