Non-contact on-chip manipulation of 3-D microtools and its applications (magnetically modified soft microactuators for particle manipulation)

Fumihito Arai; Yoko Yamanishi

doi:10.1007/978-1-84882-991-6_12

Non-contact on-chip manipulation of 3-D microtools and its applications (magnetically modified soft microactuators for particle manipulation)

Fumihito Arai, Yoko Yamanishi

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

This chapter describes a novel non-contact manipulation system using an on-chip, magnetically driven micro-tool (MMT) rather than conventional biomanipulation by hand, which has a higher risk of contamination and lower success rate and repeatability. MMTs can sort particles individually, and have the unique feature that they can be installed directly in a microchannel (width = 150 μm), unlike conventional cell sorting systems. The drive unit was significantly improved by focusing magnetic field on-chip and reduced the magnetic interaction region. Also, we have investigated an active size controlled droplet generation system by using magnetically driven microtool (MMT). With a lateral motion of the MMT in microchannels, the continuous phase can be pinched off by the movement of MMT to obtain size-controlled droplets actively.

Original language	English
Title of host publication	Next-Generation Actuators Leading Breakthroughs
Publisher	Springer London
Pages	129-140
Number of pages	12
ISBN (Print)	9781848829909
DOIs	https://doi.org/10.1007/978-1-84882-991-6_12
Publication status	Published - 2010
Externally published	Yes

ASJC Scopus subject areas

Engineering(all)

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10.1007/978-1-84882-991-6_12

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abstract = "This chapter describes a novel non-contact manipulation system using an on-chip, magnetically driven micro-tool (MMT) rather than conventional biomanipulation by hand, which has a higher risk of contamination and lower success rate and repeatability. MMTs can sort particles individually, and have the unique feature that they can be installed directly in a microchannel (width = 150 μm), unlike conventional cell sorting systems. The drive unit was significantly improved by focusing magnetic field on-chip and reduced the magnetic interaction region. Also, we have investigated an active size controlled droplet generation system by using magnetically driven microtool (MMT). With a lateral motion of the MMT in microchannels, the continuous phase can be pinched off by the movement of MMT to obtain size-controlled droplets actively.",

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AB - This chapter describes a novel non-contact manipulation system using an on-chip, magnetically driven micro-tool (MMT) rather than conventional biomanipulation by hand, which has a higher risk of contamination and lower success rate and repeatability. MMTs can sort particles individually, and have the unique feature that they can be installed directly in a microchannel (width = 150 μm), unlike conventional cell sorting systems. The drive unit was significantly improved by focusing magnetic field on-chip and reduced the magnetic interaction region. Also, we have investigated an active size controlled droplet generation system by using magnetically driven microtool (MMT). With a lateral motion of the MMT in microchannels, the continuous phase can be pinched off by the movement of MMT to obtain size-controlled droplets actively.

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ER -

Non-contact on-chip manipulation of 3-D microtools and its applications (magnetically modified soft microactuators for particle manipulation)

Abstract

ASJC Scopus subject areas

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