Thermocapillary manipulation of droplets using holographic beam shaping: Microfluidic pin ball

Maria Luisa Cordero; Daniel R. Burnham; Charles N. Baroud; David McGloin

doi:10.1063/1.2952374

Thermocapillary manipulation of droplets using holographic beam shaping: Microfluidic pin ball

Maria Luisa Cordero
, Daniel R. Burnham
, Charles N. Baroud
, David McGloin

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

Abstract

We demonstrate that holographically generated optical patterns offer greater flexibility for the thermocapillary control of water droplets than Gaussian spots; droplets can be stopped in faster flows while using less optical intensity when the surface tension variations are created by line patterns instead of single spots. Further, experiments are performed making use of variable light patterns to achieve controlled droplet routing in a four-way cross microfluidic channel. Finally, multiple droplet storage is demonstrated as well as changing drop order.

Original language	English
Article number	034107
Journal	Applied Physics Letters
Volume	93
Issue number	3
DOIs	https://doi.org/10.1063/1.2952374
Publication status	Published - 4 Aug 2008

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title = "Thermocapillary manipulation of droplets using holographic beam shaping: Microfluidic pin ball",

abstract = "We demonstrate that holographically generated optical patterns offer greater flexibility for the thermocapillary control of water droplets than Gaussian spots; droplets can be stopped in faster flows while using less optical intensity when the surface tension variations are created by line patterns instead of single spots. Further, experiments are performed making use of variable light patterns to achieve controlled droplet routing in a four-way cross microfluidic channel. Finally, multiple droplet storage is demonstrated as well as changing drop order.",

author = "Cordero, \{Maria Luisa\} and Burnham, \{Daniel R.\} and Baroud, \{Charles N.\} and David McGloin",

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AU - McGloin, David

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N2 - We demonstrate that holographically generated optical patterns offer greater flexibility for the thermocapillary control of water droplets than Gaussian spots; droplets can be stopped in faster flows while using less optical intensity when the surface tension variations are created by line patterns instead of single spots. Further, experiments are performed making use of variable light patterns to achieve controlled droplet routing in a four-way cross microfluidic channel. Finally, multiple droplet storage is demonstrated as well as changing drop order.

AB - We demonstrate that holographically generated optical patterns offer greater flexibility for the thermocapillary control of water droplets than Gaussian spots; droplets can be stopped in faster flows while using less optical intensity when the surface tension variations are created by line patterns instead of single spots. Further, experiments are performed making use of variable light patterns to achieve controlled droplet routing in a four-way cross microfluidic channel. Finally, multiple droplet storage is demonstrated as well as changing drop order.

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DO - 10.1063/1.2952374

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Thermocapillary manipulation of droplets using holographic beam shaping: Microfluidic pin ball

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