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Phased peristaltic micropumping for continuous sampling and hardcoded droplet generation

Phased peristaltic micropumping for continuous sampling and hardcoded droplet generation
Phased peristaltic micropumping for continuous sampling and hardcoded droplet generation
Droplet microfluidics has recently emerged as a new engineering tool for biochemical analysis of small sample volumes. Droplet generation is most commonly achieved by introducing aqueous and oil phases into a T-junction or a flow focusing channel geometry. This method produces droplets that are sensitive to changes in flow conditions and fluid composition. Here, we present an alternative approach using a simple peristaltic micropump to deliver the aqueous and oil phases in antiphase pulses resulting in a robust “chopping”-like method of droplet generation. This method offers controllable droplet dynamics, with droplet volumes solely determined by the pump design, and is insensitive to liquid properties and flow rates. Importantly, sequences of droplets with controlled composition can be hardcoded into the pump, allowing chemical operations such as titrations and dilutions to be easily achieved. The push–pull pump is compact and can continuously collect samples, generating droplets close to the sampling site and with short stabilisation time. We envisage that this robust droplet generation method is highly suited for continuous in situ sampling and chemical measurement, allowing droplet microfluidics to step out of the lab and into field-deployable applications.
1473-0197
1149-1157
Nightingale, Adrian
4b51311d-c6c3-40d5-a13f-ab8917031ab3
Evans, Gareth
235f863f-e661-464e-ba15-79faa28c6d77
Xu, Peixiang
bb419bcb-03df-4173-b5ab-3444038cf63c
Jae Kim, Byung
c659f722-4648-4a4e-86f8-1b81cbd1e8e9
Hassan, Sammer-Ul
8a5ae3f1-3451-4093-879e-85f40953da8b
Niu, Xize
f3d964fb-23b4-45db-92fe-02426e4e76fa
Nightingale, Adrian
4b51311d-c6c3-40d5-a13f-ab8917031ab3
Evans, Gareth
235f863f-e661-464e-ba15-79faa28c6d77
Xu, Peixiang
bb419bcb-03df-4173-b5ab-3444038cf63c
Jae Kim, Byung
c659f722-4648-4a4e-86f8-1b81cbd1e8e9
Hassan, Sammer-Ul
8a5ae3f1-3451-4093-879e-85f40953da8b
Niu, Xize
f3d964fb-23b4-45db-92fe-02426e4e76fa

Nightingale, Adrian, Evans, Gareth, Xu, Peixiang, Jae Kim, Byung, Hassan, Sammer-Ul and Niu, Xize (2017) Phased peristaltic micropumping for continuous sampling and hardcoded droplet generation. Lab on a Chip, 17 (6), 1149-1157. (doi:10.1039/C6LC01479H).

Record type: Article

Abstract

Droplet microfluidics has recently emerged as a new engineering tool for biochemical analysis of small sample volumes. Droplet generation is most commonly achieved by introducing aqueous and oil phases into a T-junction or a flow focusing channel geometry. This method produces droplets that are sensitive to changes in flow conditions and fluid composition. Here, we present an alternative approach using a simple peristaltic micropump to deliver the aqueous and oil phases in antiphase pulses resulting in a robust “chopping”-like method of droplet generation. This method offers controllable droplet dynamics, with droplet volumes solely determined by the pump design, and is insensitive to liquid properties and flow rates. Importantly, sequences of droplets with controlled composition can be hardcoded into the pump, allowing chemical operations such as titrations and dilutions to be easily achieved. The push–pull pump is compact and can continuously collect samples, generating droplets close to the sampling site and with short stabilisation time. We envisage that this robust droplet generation method is highly suited for continuous in situ sampling and chemical measurement, allowing droplet microfluidics to step out of the lab and into field-deployable applications.

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Peristaltic_Drop_Gen_Paper_LOC - Accepted Manuscript
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More information

Accepted/In Press date: 7 February 2017
e-pub ahead of print date: 8 February 2017
Published date: 21 March 2017
Organisations: Mechatronics, Education Hub

Identifiers

Local EPrints ID: 406143
URI: http://eprints.soton.ac.uk/id/eprint/406143
DOI: doi:10.1039/C6LC01479H
ISSN: 1473-0197
PURE UUID: 73b9cdbc-4b47-4025-8b52-2e6bc42fe1ae
ORCID for Adrian Nightingale: ORCID iD orcid.org/0000-0003-2445-4827
ORCID for Sammer-Ul Hassan: ORCID iD orcid.org/0000-0002-0319-5814

Catalogue record

Date deposited: 10 Mar 2017 10:40
Last modified: 16 Mar 2024 05:07

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Contributors

Author: Adrian Nightingale ORCID iD
Author: Gareth Evans
Author: Peixiang Xu
Author: Byung Jae Kim
Author: Sammer-Ul Hassan ORCID iD
Author: Xize Niu

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