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Literature DB >> 19739701

Robust acoustic particle manipulation: A thin-reflector design for moving particles to a surface.

P Glynne-Jones¹, R J Boltryk, M Hill, N R Harris, P Baclet.

Abstract

Existing ultrasonic manipulation devices capable of pushing particles to a surface ("quarter-wave" devices) have significant potential in sensor applications. A configuration for achieving this that uses the first thickness resonance of a layered structure with both a thin reflector layer and thin-fluid layer is described here. Crucially, this mode is efficient with lossy reflector materials such as polymers, produces a more uniform acoustic radiation force at the reflector, and is less sensitive to geometric variations than previously described quarter-wave devices. This design is thus expected to be suitable for mass produced, disposable devices.

Entities: Chemical

Year: 2009 PMID： 19739701 DOI： 10.1121/1.3186800

Source DB: PubMed Journal: J Acoust Soc Am ISSN： 0001-4966 Impact factor: 1.840

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Cited

6 in total

1. Layered acoustofluidic resonators for the simultaneous optical and acoustic characterisation of cavitation dynamics, microstreaming, and biological effects.

Authors: V Pereno; M Aron; O Vince; C Mannaris; A Seth; M de Saint Victor; G Lajoinie; M Versluis; C Coussios; D Carugo; E Stride
Journal: Biomicrofluidics Date: 2018-05-30 Impact factor: 2.800

2. Plastic-based acoustofluidic devices for high-throughput, biocompatible platelet separation.

Authors: Yuyang Gu; Chuyi Chen; Zeyu Wang; Po-Hsun Huang; Hai Fu; Lin Wang; Mengxi Wu; Yuchao Chen; Tieyu Gao; Jianying Gong; Jean Kwun; Gowthami M Arepally; Tony Jun Huang
Journal: Lab Chip Date: 2019-01-29 Impact factor: 6.799

Review 3. Lab-on-a-Chip Magneto-Immunoassays: How to Ensure Contact between Superparamagnetic Beads and the Sensor Surface.

Authors: Bernhard Eickenberg; Judith Meyer; Lars Helmich; Daniel Kappe; Alexander Auge; Alexander Weddemann; Frank Wittbracht; Andreas Hütten
Journal: Biosensors (Basel) Date: 2013-09-17

Robust acoustic particle manipulation: A thin-reflector design for moving particles to a surface.

1. Layered acoustofluidic resonators for the simultaneous optical and acoustic characterisation of cavitation dynamics, microstreaming, and biological effects.

2. Plastic-based acoustofluidic devices for high-throughput, biocompatible platelet separation.

Review 3. Lab-on-a-Chip Magneto-Immunoassays: How to Ensure Contact between Superparamagnetic Beads and the Sensor Surface.

4. Flexural wave-based soft attractor walls for trapping microparticles and cells.

5. Acoustofluidic medium exchange for preparation of electrocompetent bacteria using channel wall trapping.

6. Creating Supported Plasma Membrane Bilayers Using Acoustic Pressure.