A microfluidic route to small CO2 microbubbles with narrow size distribution

Jai Il Park; Zhihong Nie; Alexander Kumachev; Eugenia Kumacheva

doi:10.1039/B914572A

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Soft Matter

Issue 3, 2010

Where physics meets chemistry meets biology for fundamental soft matter research.

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A microfluidic route to small CO₂ microbubbles with narrow size distribution

Jai Il Park,^a Zhihong Nie,^a Alexander Kumachev^a and Eugenia Kumacheva*^a

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Department of Chemistry, University of Toronto, 80 St. George Street, Toronto, Canada
E-mail: ekumache@chem.utoronto.ca ;
Fax: +1 416 978 3576 ;
Tel: +1 416 978 3576

Soft Matter, 2010,6, 630-634

DOI: 10.1039/B914572A
Received 20 Jul 2009, Accepted 05 Oct 2009
First published online 03 Dec 2009

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Abstract
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We report a new microfluidic strategy for the generation of small (<10 µm) microbubbles with a narrow size distribution. Our approach has the following features: (i) the generation of bubbles from gaseous CO₂ and (ii) the controllable dissolution of these bubbles until they reach a desired size. We examine the role of various factors on the formation and the extent of bubble dissolution and show that the final dimensions of bubbles are determined by the flow rate of the continuous aqueous phase and the acid–base equilibria established within the microchannels.

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The detailed calculation of the concentration of dissolved CO ₂ in the continuous aqueous phase
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A microfluidic route to small CO₂ microbubbles with narrow size distribution