MAKE A MEME View Large Image Single Molecules; Microdroplets (5941040594).jpg The NIST on-demand single-molecule drop dispenser Water flows through a microfluidic channel roughly 35 microns wide and enters a narrow constriction where it breaks up into droplets Varying ...
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Keywords: Nanochemistry; Single Molecules; Microdroplets (5941040594).jpg The NIST on-demand single-molecule drop dispenser Water flows through a microfluidic channel roughly 35 microns wide and enters a narrow constriction where it breaks up into droplets Varying the width of the constriction changes the size of the drops and lacing the water with desired molecules of just the right concentration causes the resulting droplets to pick up single molecules of interest 99 percent of the time Credit NIST Disclaimer Any mention of commercial products within NIST web pages is for information only; it does not imply recommendation or endorsement by NIST Use of NIST Information These World Wide Web pages are provided as a public service by the National Institute of Standards and Technology NIST With the exception of material marked as copyrighted information presented on these pages is considered public information and may be distributed or copied Use of appropriate byline/photo/image credits is requested https //www flickr com/photos/usnistgov/5941040594/ Nanochemistry; Single Molecules; Microdroplets 2009-09-22 12 26 https //www flickr com/people/63059536 N06 National Institute of Standards and Technology PD-USGov National Institute of Standards and Technology https //flickr com/photos/63059536 N06/5941040594 2016-09-07 02 36 18 United States Government Work Uncategorized 2016 November 30
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