Nanorefrigerative tweezers for optofluidic manipulation

Nanorefrigerative tweezers for optofluidic manipulation

Plasmonic optical tweezers with the ability to manipulate nano-sized particles or molecules that are beyond the diffraction limit have been developed rapidly in recent years. However, plasmonic heat generation always limits its applications in capturing particles or biomacromolecules that are vulner...

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Bibliographic Details
Main Authors: Chen, J. (Author), Dai, X. (Author), Gao, B.Z (Author), Ho, H.-P (Author), Jia, B. (Author), Qu, J. (Author), Shao, Y. (Author), Zhou, J. (Author)
Format: Article
Language:English
Published: American Institute of Physics Inc. 2022
Subjects:
Anti-Stokes fluorescence
Biomacromolecule
Cold spots
Diffraction
Diffraction limits
Highest temperature
ITS applications
Nanoparticle manipulation
Optical tweezers
Optofluidic manipulations
Particle size
Plasmonics
Velocity
Velocity field
Online Access:View Fulltext in Publisher
Description
Summary:Plasmonic optical tweezers with the ability to manipulate nano-sized particles or molecules that are beyond the diffraction limit have been developed rapidly in recent years. However, plasmonic heat generation always limits its applications in capturing particles or biomacromolecules that are vulnerable to high temperatures. Here, we propose nanorefrigerative tweezers based on a single refrigerative nanocrystal, which can form a nanometer-sized cold-spot via anti-Stokes fluorescence. Numerical simulations are performed to compute the temperature and velocity fields. The results show that thermo-osmosis and thermophoresis play major roles in nanoparticle manipulation, while natural convection in the nanoscale is negligible. This tweezing scheme not only offers a sub-diffraction-limit way to manipulate nano-objects but also avoids possible thermal damage to the trapped targets. Therefore, it will potentially become a powerful tool in biomedical and biosensing research studies. © 2022 Author(s).
ISBN:00036951 (ISSN)
DOI:10.1063/5.0086855

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