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SUMMARY:Open Nanofluidic Films with Rapid Transport for Ultra-Low Sample Vo
 lumes
LOCATION:Chemistry A101
TZID:America/Denver
DTSTART:20189201T000000
UID:2026-04-29-02-47-17@natsci.colostate.edu
DTSTAMP:20260429T024717
Description:Literature Seminar Abstract\n\nNon-Invasive sensing is a growin
 g global market where the need for continuous\, wearable sensors is consta
 ntly developing. Specifically\, biosensors have been an attractive alterna
 tive to bulky and expensive analytical instruments used in health-care tod
 ay. Having the ability to monitor overall health of a patient without havi
 ng to draw blood or use other invasive techniques is the ideal system. Rec
 ent advances in wearable technologies\, directly in sweat sensing\, have b
 een able to effectively monitor a person’s overall health. Human sweat c
 ontains abundant information about overall health and serves as an excelle
 nt biofluid for non-invasive sensing. A group from the University of Cinci
 nnati recently designed a device to effectively wick and detect low volume
 s of sweat from a subject’s arm with no analyte loss with the film mater
 ials. By using open nanofluidic films with a novel hexagonal network desig
 n\, they are able to do this process in less than three minutes. Their new
  design addresses significant challenges facing the non-invasive biosensin
 g field but this application can be used to improve the wearable sensing f
 ield as a whole. 4:00 pm
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