Na Zhao, Zehua Yu, Jun Huang, Yuxi Liu, Yifan Zhao, Xiangqian Fu, Peihua Yang, Kang Liu
Nanoscale 2023 Mar 30Microfluidic chips are prevailingly utilized in biochemical monitoring and clinical diagnostics due to their capability of manipulating minuscule amounts of liquids in a highly integrated manner. Fabrication of microchannels on chips is commonly based on glass or polydimethylsiloxane, and sensing of the fluids and biochemicals within them relies on invasive embedded sensing accessories in the channels. In this study, we propose a hydrogel-assisted microfluidic chip for non-invasive monitoring of chemicals in microfluidics. A nanoporous hydrogel acts as a perfect sealing film on top of a microchannel to encapsulate liquid, and allows for the delivery of target biochemicals to its surface, leaving an open window for non-invasive analysis. This functionally "open" microchannel can be integrated with various electrical, electrochemical, and optical methods to realize accurate detection of biochemicals, suggesting the potential of hydrogel microfluidic chips for non-invasive clinical diagnostics and smart healthcare.
Na Zhao, Zehua Yu, Jun Huang, Yuxi Liu, Yifan Zhao, Xiangqian Fu, Peihua Yang, Kang Liu. Non-invasive monitoring of biochemicals in hydrogel-assisted microfluidic chips. Nanoscale. 2023 Mar 30;15(13):6179-6186
PMID: 36912469
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