Yuta Sasai scite author profile

Yuta Sasai

4Publications

36Citation Statements Received

141Citation Statements Given

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135

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Osaka University

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Thermophoretic Manipulation of Micro- and Nanoparticle Flow through a Sudden Contraction in a Microchannel with Near-Infrared Laser Irradiation

Tsuji

Sasai

2018

Phys. Rev. Applied

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A temperature gradient in a continuous fluid induces the motion of dispersed micro-and nanoparticles even when the fluid is motionless. This phenomenon is known as thermophoresis, and it is expected to be the basis for techniques to control particle motion. In this study, we use the thermophoresis of microand nanoparticles in a microchannel filled with an aqueous solution to control the particle motion near the inlet of a sudden contraction, which is a narrower channel connecting two wider channels. Microfluidic devices with sudden contractions are widely used to develop various devices with micro-and nanometer dimensions, such as nanopore sensors. A near-infrared laser is used to create a strong temperature gradient of O(10 6) K m −1 and induce thermophoresis of micro-and nanoparticles. Because the heating by the laser irradiation is localized near the inlet of the contraction, this configuration is useful for controlling particle translocation into and through the contraction. We characterize our experimental setup by quantifying flow and temperature fields near the contraction channel using particle image velocimetry and laser-induced fluorescence, respectively. Then, we observe the obstruction of the particle translocation into the contraction channel induced by the laser-induced thermophoresis for various parameters such as channel dimensions, flow speeds, particle sizes, and laser powers. Near the inlet of the contraction channel, the counterbalance of thermophoretic force and flow drag leads to the ringlike pattern formation of the particle distribution. Moreover, we carry out some demonstrations using the proposed system to selectively translocate particles and enhance the sensing performance due to increased particle density. Thanks to the noncontact nature of laser-induced thermophoresis, the integration of our method into existing microfluidic devices is feasible and expected to improve technologies for manipulating particles in fluids.

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Co-operation between general practitioners and community nurses based at health centres and other types of premises in the United Kingdom as seen through the eyes of Japanese Doctors, 1979

et al. 1982

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Flow Control of Microparticles Near Orifice Using Laser Induced Thermophoresis

Tsuji

Sasai

2018

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Filtration of micro particles by laser-induced thermophoresis

Sasai

Tsuji

2017

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Yuta Sasai

Thermophoretic Manipulation of Micro- and Nanoparticle Flow through a Sudden Contraction in a Microchannel with Near-Infrared Laser Irradiation

Co-operation between general practitioners and community nurses based at health centres and other types of premises in the United Kingdom as seen through the eyes of Japanese Doctors, 1979

Flow Control of Microparticles Near Orifice Using Laser Induced Thermophoresis

Filtration of micro particles by laser-induced thermophoresis

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