Yang, D. S.*; Wu, Y.*; Kanatzidis, E. E.*; Avila, R.*; Zhou, M.*; Bai, Y.*; Chen, S.*; Sekine, Yurina 
; Kim, J.*; Deng, Y.*; Guo, H.*; Zhang, Y.*; Ghaffari, R.*; Huang, Y.*; Rogers, J. A.*
This paper presents a set of findings that enhances the performance of these systems through the use of microfluidic networks, integrated valves and microscale optical cuvettes formed by three-dimensional printing in hard/soft hybrid materials systems, for accurate spectroscopic and fluorometric assays. Field studies demonstrate the capability of these microcuvette systems to evaluate the concentrations of copper, chloride, and glucose in sweat, along with the sweat pH, with laboratory grade accuracy and sensitivity.
Language |
: | English |
|---|---|---|
Journal |
: | |
Volume |
: | 10 |
Number |
: | 11 |
Pages |
: | p.4992 - 5003 |
Publication Year/Month |
: | 2023/09 |
Paper URL |
: |
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Keywords |
: | |
Cooperating Institute |
: |
Accesses |
: |
- Accesses |
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InCites™ |
: |
Percentile:83.08 Category:Chemistry, Multidisciplinary |
Altmetrics |
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