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A single-particle mechanofluorescent sensor

Narges Ahmadi, Jieun Lee, Chirag Batukbhai Godiya, Jong-Man Kim () and Bum Jun Park ()
Additional contact information
Narges Ahmadi: Kyung Hee University
Jieun Lee: Kyung Hee University
Chirag Batukbhai Godiya: Kyung Hee University
Jong-Man Kim: Hanyang University
Bum Jun Park: Kyung Hee University

Nature Communications, 2024, vol. 15, issue 1, 1-12

Abstract: Abstract Monitoring mechanical stresses in microchannels is challenging. Herein, we report the development of a mechanofluorescence sensor system featuring a fluorogenic single polydiacetylene (PDA) particle, fabricated using a co-flow microfluidic method. We construct a stenotic vessel-mimicking capillary channel, in which the hydrodynamically captured PDA particle is subjected to controlled fluid flows. Fluorescence responses of the PDA particle are directly monitored in real time using fluorescent microscopy. The PDA particle displays significant nonlinear fluorescence emissions influenced by fluid viscosity and the presence of nanoparticles and biomolecules in the fluid. This nonlinear response is likely attributed to the torsion energy along the PDA’s main chain backbone. Computational fluid dynamic simulations indicate that the complete blue-to-red transition necessitates ~307 μJ, aligning with prior research. We believe this study offers a unique advantage for simulating specific problematic regions of the human body in an in vitro environment, potentially paving the way for future exploration of difficult-to-access areas within the body.

Date: 2024
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DOI: 10.1038/s41467-024-50361-6

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