Michael R. Kendall scite author profile

Michael R. Kendall

5Publications

107Citation Statements Received

97Citation Statements Given

How they've been cited

141

106

How they cite others

Affiliations

University of Oxford, Lawrence Livermore National Laboratory, University of California, Irvine

Publications

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Parallel generation of uniform fine droplets at hundreds of kilohertz in a flow-focusing module

Bardin

Kendall

Dayton

et al. 2013

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Droplet-based microfluidic systems enable a variety of biomedical applications from point-of-care diagnostics with third world implications, to targeted therapeutics alongside medical ultrasound, to molecular screening and genetic testing. Though these systems maintain the key advantage of precise control of the size and composition of the droplet as compared to conventional methods of production, the low rates at which droplets are produced limits translation beyond the laboratory setting. As well, previous attempts to scale up shear-based microfluidic systems focused on increasing the volumetric throughput and formed large droplets, negating many practical applications of emulsions such as site-specific therapeutics. We present the operation of a parallel module with eight flow-focusing orifices in the dripping regime of droplet formation for the generation of uniform fine droplets at rates in the hundreds of kilohertz. Elevating the capillary number to access dripping, generation of monodisperse droplets of liquid perfluoropentane in the parallel module exceeded 3.69 Â 10 5 droplets per second, or 1.33 Â 10 9 droplets per hour, at a mean diameter of 9.8 lm. Our microfluidic method offers a novel means to amass uniform fine droplets in practical amounts, for instance, to satisfy clinical needs, with the potential for modification to form massive amounts of more complex droplets. V C 2013 AIP Publishing LLC. [http://dx

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Scaled-up production of monodisperse, dual layer microbubbles using multi-array microfluidic module for medical imaging and drug delivery

Kendall¹,

Bardin²,

Shih³

et al. 2012

Bubble Science, Engineering & Technology

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The production of uniform-sized and multilayer microbubbles enables promising medical applications that combine ultrasound contrast and targeted delivery of therapeutics, with improvements in the consistency of acoustic response and drug loading relative to non-uniform populations of microbubbles. Microfluidics has shown utility in the generation of such small multi-phase systems, however low production rates from individual devices limit the potential for clinical translation. We present scaled-up production of monodisperse dual-layered microbubbles in a novel multi-array microfluidic module containing four or eight hydrodynamic flow-focusing orifices. Production reached 1.34 × 105 Hz in the 8-channel configuration, and microbubble diameters in the high-speed regime (> 5 × 104 Hz) ranged between 18.6–22.3 μm with a mean pooled polydispersity index under 9 percent. Results demonstrate that microfluidic scale-up for high-output production of multilayer bubbles is possible while maintaining consistency in size production, suggesting that this method may be appropriate for future clinical applications.

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From slab to surface: Earthquake evidence for fluid migration at Uturuncu volcano

Hudson

Kendall

Pritchard

et al. 2021

Preprint

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Splitting, merging and spanwise wavenumber selection of Dean vortex pairs

Ligrani

Longest

Kendall

et al. 1994

Experiments in Fluids

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Wiggler insertion of the PEP-II B-Factory LER

Heim

Bertolini

Dressler

et al.

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