2017
DOI: 10.1021/acs.analchem.6b05041
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K-Channel: A Multifunctional Architecture for Dynamically Reconfigurable Sample Processing in Droplet Microfluidics

Abstract: By rapidly creating libraries of thousands of unique, miniaturized reactors, droplet microfluidics provides a powerful method for automating high-throughput chemical analysis. In order to engineer in-droplet assays, microfluidic devices must add reagents into droplets, remove fluid from droplets, and perform other necessary operations, each typically provided by a unique, specialized geometry. Unfortunately, modifying device performance or changing operations usually requires re-engineering the device among th… Show more

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Cited by 31 publications
(35 citation statements)
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“…Furthermore, based on the principles of mechanical [129][130][131][132][133][134][135] or thermal [136] forces, the manipulation of droplets based on mechanical and thermal forces can also be achieved by designing the structures of the microfluidic chip.…”
Section: Figurementioning
confidence: 99%
“…Furthermore, based on the principles of mechanical [129][130][131][132][133][134][135] or thermal [136] forces, the manipulation of droplets based on mechanical and thermal forces can also be achieved by designing the structures of the microfluidic chip.…”
Section: Figurementioning
confidence: 99%
“…due to its highthroughput compartmentalization of nano or picoliter-sized environments for biochemical assays 1, 2 . To date, droplet manipulation techniques have been intensively investigated and developed, such as control of droplet size 3 , coalescence of droplet 4 , droplet splitting 5 , injection of droplet 6 and etc.…”
Section: Introductionmentioning
confidence: 99%
“…14 Accordingly, droplets have found utility in a variety of integrated (bio)chemical analyses such as single-cell protein profiling, 5 genome sequencing, 6 chromatin digestion and nucleosome positioning determination, 7 enzyme-modulator screening, 8, 9 protease activity determination, 10 and polymerase chain reaction of single-copy DNA molecules. 11 Droplets are primarily generated using T-junction 12 and flow-focusing configurations, 13 and integrated downstream operations have been developed to add reagents, 14, 15 incubate reactions, 16 merge and split droplets, 15, 17, 18 or use electric and magnetic fields to sort droplets of interest. 1921…”
Section: Introductionmentioning
confidence: 99%
“…Beyond droplet generation, 12, 13 the range of useful droplet manipulations includes direct reagent injection into droplets 14, 15 and droplet splitting to parallelize reactions or remove waste, 15, 43, 44 among others, 1 providing needed control over in-droplet chemistry. While these operations have been well characterized in PDMS, translation of droplet technologies into thermoplastics for mass fabrication depends on robustly demonstrating these processes in thermoplastic devices.…”
Section: Introductionmentioning
confidence: 99%
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