SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2781565803> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2781565803 abstract "Droplet microfluidics, which involves micrometer-sized emulsion droplets on a microfabricated platform, has been demonstrated as a unique system for many biological and chemical applications. Robust and scalable generation of monodisperse droplets at high throughput is of fundamental importance for droplet microfluidics. Classic designs for droplet generation employ shear fluid dynamics to induce the breakup of droplets in a two-phase flow and the droplet size is sensitive to flow rate fluctuations, often resulting in polydispersity. In this paper, we show spontaneous emulsification by a high aspect ratio (>3.5) rectangular nozzle structure. Due to the confinement and abrupt change of the structure, a Laplace pressure difference is generated between the dispersed and continuous phases, and causes the thread thinning and droplet pinch-off without the need to precisely control external flow conditions. A high-throughput droplet generator was developed by parallelization of a massive number of the basic structures. This device enabled facile and rapid partition of aqueous samples into millions of uniform picolitre droplets in oil. Using this device, on-chip droplet-based digital polymerase chain reaction (PCR) was performed for absolute quantification of rare genes with a wide dynamic range." @default.
W2781565803 created "2018-01-12" @default.
W2781565803 creator A5002969550 @default.
W2781565803 creator A5025830884 @default.
W2781565803 creator A5032025690 @default.
W2781565803 creator A5033781880 @default.
W2781565803 creator A5070674756 @default.
W2781565803 creator A5073430356 @default.
W2781565803 creator A5082211066 @default.
W2781565803 creator A5084819777 @default.
W2781565803 creator A5088390160 @default.
W2781565803 date "2018-01-01" @default.
W2781565803 modified "2023-10-16" @default.
W2781565803 title "High aspect ratio induced spontaneous generation of monodisperse picolitre droplets for digital PCR" @default.
W2781565803 cites W1025868516 @default.
W2781565803 cites W1964257030 @default.
W2781565803 cites W1965500282 @default.
W2781565803 cites W1968957319 @default.
W2781565803 cites W1978157309 @default.
W2781565803 cites W1981416879 @default.
W2781565803 cites W1987750480 @default.
W2781565803 cites W1988955440 @default.
W2781565803 cites W1995499837 @default.
W2781565803 cites W2004258912 @default.
W2781565803 cites W2008173042 @default.
W2781565803 cites W2012874220 @default.
W2781565803 cites W2024859618 @default.
W2781565803 cites W2026125236 @default.
W2781565803 cites W2031945788 @default.
W2781565803 cites W2032930176 @default.
W2781565803 cites W2033663157 @default.
W2781565803 cites W2034351800 @default.
W2781565803 cites W2040263545 @default.
W2781565803 cites W2044629311 @default.
W2781565803 cites W2046840844 @default.
W2781565803 cites W2050532528 @default.
W2781565803 cites W2060844756 @default.
W2781565803 cites W2062409563 @default.
W2781565803 cites W2064543601 @default.
W2781565803 cites W2065099108 @default.
W2781565803 cites W2072053871 @default.
W2781565803 cites W2072212493 @default.
W2781565803 cites W2072408317 @default.
W2781565803 cites W2078402768 @default.
W2781565803 cites W2079071383 @default.
W2781565803 cites W2082532012 @default.
W2781565803 cites W2086825624 @default.
W2781565803 cites W2092396288 @default.
W2781565803 cites W2096511635 @default.
W2781565803 cites W2104941124 @default.
W2781565803 cites W2106469122 @default.
W2781565803 cites W2111922564 @default.
W2781565803 cites W2114764875 @default.
W2781565803 cites W2119832277 @default.
W2781565803 cites W2126832798 @default.
W2781565803 cites W2133344765 @default.
W2781565803 cites W2138981342 @default.
W2781565803 cites W2142937727 @default.
W2781565803 cites W2150204651 @default.
W2781565803 cites W2165244515 @default.
W2781565803 cites W2332952155 @default.
W2781565803 cites W2335526992 @default.
W2781565803 cites W2400568009 @default.
W2781565803 cites W2523333625 @default.
W2781565803 cites W2548144690 @default.
W2781565803 cites W2560012560 @default.
W2781565803 cites W2578006804 @default.
W2781565803 cites W2579829632 @default.
W2781565803 cites W2585528478 @default.
W2781565803 cites W2757041585 @default.
W2781565803 cites W797151515 @default.
W2781565803 doi "https://doi.org/10.1063/1.5011240" @default.
W2781565803 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5750054" @default.
W2781565803 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29333205" @default.
W2781565803 hasPublicationYear "2018" @default.
W2781565803 type Work @default.
W2781565803 sameAs 2781565803 @default.
W2781565803 citedByCount "25" @default.
W2781565803 countsByYear W27815658032019 @default.
W2781565803 countsByYear W27815658032020 @default.
W2781565803 countsByYear W27815658032021 @default.
W2781565803 countsByYear W27815658032022 @default.
W2781565803 countsByYear W27815658032023 @default.
W2781565803 crossrefType "journal-article" @default.
W2781565803 hasAuthorship W2781565803A5002969550 @default.
W2781565803 hasAuthorship W2781565803A5025830884 @default.
W2781565803 hasAuthorship W2781565803A5032025690 @default.
W2781565803 hasAuthorship W2781565803A5033781880 @default.
W2781565803 hasAuthorship W2781565803A5070674756 @default.
W2781565803 hasAuthorship W2781565803A5073430356 @default.
W2781565803 hasAuthorship W2781565803A5082211066 @default.
W2781565803 hasAuthorship W2781565803A5084819777 @default.
W2781565803 hasAuthorship W2781565803A5088390160 @default.
W2781565803 hasBestOaLocation W27815658032 @default.
W2781565803 hasConcept C111919701 @default.
W2781565803 hasConcept C11432220 @default.
W2781565803 hasConcept C121332964 @default.
W2781565803 hasConcept C138101251 @default.
W2781565803 hasConcept C171250308 @default.
W2781565803 hasConcept C182748727 @default.