Issue 23, 2020

Surface enrichment of ions leads to the stability of bulk nanobubbles

Abstract

Numerous experiments have shown that bulk nanobubble suspensions are often characterized by a high magnitude of zeta potential. However, the underlying physical mechanism of how the bulk nanobubbles can stably exist has remained unclear so far. In this paper, based on theoretical analysis, we report a stability mechanism for charged bulk nanobubbles. The strong affinity of negative charges for the nanobubble interface causes charge enrichment, and the resulting electric field energy gives rise to a local minimum for the free energy cost of bubble formation, leading to thermodynamic metastability of the charged nanobubbles. The excess surface charges mechanically generate a size-dependent force, which balances the Laplace pressure and acts as a restoring force when a nanobubble is thermodynamically perturbed away from its equilibrium state. With this negative feedback mechanism, we discuss the nanobubble stability as a function of surface charge and gas supersaturation. We also compare our theoretical prediction with recent experimental observations, and a good agreement is found. This mechanism provides new fundamental insights into the origin of the unexplained stability of bulk nanobubbles.

Graphical abstract: Surface enrichment of ions leads to the stability of bulk nanobubbles

Article information

Article type
Paper
Submitted
18 Jan 2020
Accepted
10 May 2020
First published
11 May 2020

Soft Matter, 2020,16, 5470-5477

Surface enrichment of ions leads to the stability of bulk nanobubbles

H. Zhang, Z. Guo and X. Zhang, Soft Matter, 2020, 16, 5470 DOI: 10.1039/D0SM00116C

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