Growth of bubbles on a solid surface in response to a pressure reduction

Jiang Li; Haosheng Chen; Weizheng Zhou; Bo Wu; Simeon D. Stoyanov; Eddie G. Pelan

doi:10.1021/la404658h

Growth of bubbles on a solid surface in response to a pressure reduction

Jiang Li, Haosheng Chen^*, Weizheng Zhou, Bo Wu, Simeon D. Stoyanov, Eddie G. Pelan

^*Corresponding author for this work

Chemical Engineering

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

A diffusion-controlled method is presented to study the growth of bubbles on a solid surface. The bubbles are nucleated spontaneously on a hydrophobic smooth surface in response to a sudden pressure reduction and then grow with an expanding contact line. The evolution of the bubbles in the early stage is found to grow with a constant bubble radius and a decreasing contact angle, while the bubbles continue their growth with a constant contact angle and an increasing bubble radius after the contact angle reaches its equilibrium value. A total variation of about 60° of the contact angle is observed during the growth of the bubbles with the size scale of 10-100 μm in radius. The growing process is described by the diffusion theory with the validation of the growth constant.

Original language	English
Pages (from-to)	4223-4228
Number of pages	6
Journal	Langmuir
Volume	30
Issue number	15
Early online date	11 Apr 2014
DOIs	https://doi.org/10.1021/la404658h
Publication status	Published - 22 Apr 2014

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics
Surfaces and Interfaces
Spectroscopy
Electrochemistry

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title = "Growth of bubbles on a solid surface in response to a pressure reduction",

abstract = "A diffusion-controlled method is presented to study the growth of bubbles on a solid surface. The bubbles are nucleated spontaneously on a hydrophobic smooth surface in response to a sudden pressure reduction and then grow with an expanding contact line. The evolution of the bubbles in the early stage is found to grow with a constant bubble radius and a decreasing contact angle, while the bubbles continue their growth with a constant contact angle and an increasing bubble radius after the contact angle reaches its equilibrium value. A total variation of about 60° of the contact angle is observed during the growth of the bubbles with the size scale of 10-100 μm in radius. The growing process is described by the diffusion theory with the validation of the growth constant.",

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AU - Li, Jiang

AU - Chen, Haosheng

AU - Zhou, Weizheng

AU - Wu, Bo

AU - Stoyanov, Simeon D.

AU - Pelan, Eddie G.

PY - 2014/4/22

Y1 - 2014/4/22

N2 - A diffusion-controlled method is presented to study the growth of bubbles on a solid surface. The bubbles are nucleated spontaneously on a hydrophobic smooth surface in response to a sudden pressure reduction and then grow with an expanding contact line. The evolution of the bubbles in the early stage is found to grow with a constant bubble radius and a decreasing contact angle, while the bubbles continue their growth with a constant contact angle and an increasing bubble radius after the contact angle reaches its equilibrium value. A total variation of about 60° of the contact angle is observed during the growth of the bubbles with the size scale of 10-100 μm in radius. The growing process is described by the diffusion theory with the validation of the growth constant.

AB - A diffusion-controlled method is presented to study the growth of bubbles on a solid surface. The bubbles are nucleated spontaneously on a hydrophobic smooth surface in response to a sudden pressure reduction and then grow with an expanding contact line. The evolution of the bubbles in the early stage is found to grow with a constant bubble radius and a decreasing contact angle, while the bubbles continue their growth with a constant contact angle and an increasing bubble radius after the contact angle reaches its equilibrium value. A total variation of about 60° of the contact angle is observed during the growth of the bubbles with the size scale of 10-100 μm in radius. The growing process is described by the diffusion theory with the validation of the growth constant.

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JO - Langmuir

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Growth of bubbles on a solid surface in response to a pressure reduction

Abstract

ASJC Scopus subject areas

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