WebSep 4, 2003 · Microfluidic systems: high radial acceleration in microvortices Nature. doi: 10.1038/425038a. Authors J Patrick Shelby 1 , David S W Lim , Jason S Kuo , Daniel T Chiu Affiliation 1 Department of Chemistry, University of Washington, Seattle, Washington 98195-1700, USA. PMID: 12955132 DOI: 10.1038/425038a WebOct 5, 2024 · Eugene Lim is the author of the novels Fog & Car (Ellipsis Press, 2008), The Strangers (Black Square Editions, 2013), and Dear Cyborgs (FSG Originals, 2024). His writings have appeared in the Brooklyn Rail, the Baffler, Dazed, Fence, Little …
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WebMicrofluidic devices obtained by thermal toner transferring on glass substrate A new process for the manufacture of microfluidic devices based on deposition of laser-printing toner on glass substrates is described. It is an alternative method to the toner on polyester film (toner-polyester) one, previously introduced. WebDec 14, 2024 · The high temperature and high-pressure microfluidic experimental device is shown in Figure 2. It included a high-pressure injection and production system, high temperature and high-pressure environment loading system, high-precision image recognition, and a data acquisition system. charley\\u0027s ann arbor
High-pressure microfluidic systems (HPMS): flow and cavitation ...
WebMicrofluidic studies of hydrostatic pressure-enhanced doxorubicin resistance in human breast cancer cells Microfluidic studies of hydrostatic pressure-enhanced doxorubicin resistance in human breast cancer cells Authors Menglin Shang 1 , Su Bin Lim 2 , Kuan Jiang 3 , Yoon Sim Yap 4 , Bee Luan Khoo 5 , Jongyoon Han 6 , Chwee Teck Lim 7 … WebMay 22, 2014 · Conventionally fabricated silicon microfluidic systems with glass coverage were stabilized by a specially developed frame to withstand high-pressure drops of up to 500 bar. Velocity measurements were carried out with an optical non-intrusive measurement technique (μPIV) to characterize the flow in the microfluidic systems. High-pressure … WebHere, we present a novel methodology based on high-pressure microfluidics to rapidly perform temperature-based phenotyping of microbial strains from deep-sea environments. The main advantage concerns the multiple on-chip temperature conditions that can be achieved in a single experiment at pressures representative of the deep-sea, overcoming … charley\\u0027s appliance