Ciara S. Mc Nally scite author profile

Ciara S. Mc Nally

2Publications

43Citation Statements Received

92Citation Statements Given

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University of Leeds

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Rapid preparation of highly reliable PDMS double emulsion microfluidic devices

Gong

Nally

et al. 2016

RSC Adv.

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This article presents a simple and highly reliable method for preparing PDMS microfluidic double emulsion devices that employs a single-step oxidative plasma treatment to both pattern the wettability of microchannels and to bond the chips. As a key component of our strategy we use epoxy glue to define the required hydrophobic zones and then remove this after plasma treatment, but prior to bonding. This novel approach achieves surface modification and device sealing in a single process, which reduces chip preparation times to minutes and eliminates the need for unreliable coating processes. The second key element of our procedure is the maintenance of the patterned surfaces, where we demonstrate that immediate filling of the prepared device with water or the use of solventextracted PDMS vastly extends the operational lifetimes of the chips. The reliability of this technique is confirmed by generating water-in-oil-in-water (W/O/W) double emulsion droplets with controlled core/shell structures and volumes, while its versatility is demonstrated by simply using a different placement of the epoxy glue on the same chip design to create oil-in-water-in-oil (O/W/O) double emulsion droplets. Both W/O/W and O/W/O double emulsion droplets can therefore be created from the same soft-lithography mould. This simple method overcomes one of the key problems limiting the wider use of double emulsions lack of reliability while its speed and simplicity will facilitate the high-throughput production of monodisperse double emulsions. Our method is demonstrated to produce double emulsion down to 55 µm in diameter and could be readily extended to produce microfluidic chips with more complex hydrophilic and hydrophobic patterns.

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A reproducible approach to the assembly of microcapillaries for double emulsion production

Levenstein

Bawazer

Nally

et al. 2016

Microfluid Nanofluid

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This new approach enables alignment to within ±10 µm and allows greater flexibility in choosing the dimensions of the capillary, which contributes to the size and stability of formation of the double emulsion. Importantly, it also allows the user to compensate for the deviations from ideal shape that occur in pulled glass capillaries, which has been a source of failure with previous methods. A detailed description of the critical design and operational parameters that affect double emulsion generation in these capillary microfluidic devices is provided.

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Ciara S. Mc Nally

Rapid preparation of highly reliable PDMS double emulsion microfluidic devices

A reproducible approach to the assembly of microcapillaries for double emulsion production

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