Acoustofluidics 5: Building microfluidic acoustic resonators. - Wikidata - awgldk - TriplyDB

Acoustofluidics 5: Building microfluidic acoustic resonators.

Acoustofluidics 5: Building microfluidic acoustic resonators.

http://www.wikidata.org/entity/Q37975948

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Two-dimensional spatial manipulation of microparticles in continuous flows in acoustofluidic systems.An integrated acoustic and dielectrophoretic particle manipulation in a microfluidic device for particle wash and separation fabricated by mechanical machining.Acoustic force mapping in a hybrid acoustic-optical micromanipulation device supporting high resolution optical imaging.Fabrication and Operation of Acoustofluidic Devices Supporting Bulk Acoustic Standing Waves for Sheathless Focusing of Particles.Enhanced single-cell printing by acoustophoretic cell focusing.Application of an acoustofluidic perfusion bioreactor for cartilage tissue engineering.On-chip manipulation of single microparticles, cells, and organisms using surface acoustic waves Acoustofluidic harvesting of microalgae on a single chip.Acoustofluidics 18: Microscopy for acoustofluidic micro-devices.Acoustofluidics 20: applications in acoustic trapping.Acoustofluidics 21: ultrasound-enhanced immunoassays and particle sensors.Acoustofluidics 22: multi-wavelength resonators, applications and considerations.Acoustic focusing with engineered node locations for high-performance microfluidic particle separation.Acoustofluidics 23: acoustic manipulation combined with other force fields.Improved understanding of the acoustophoretic focusing of dense suspensions in a microchannel.Acoustic tweezing of particles using decaying opposing travelling surface acoustic waves (DOTSAW).Trapping and patterning of large particles and cells in a 1D ultrasonic standing wave.Frequency tracking in acoustic trapping for improved performance stability and system surveillance.Microfluidic droplet handling by bulk acoustic wave (BAW) acoustophoresis.A high-power ultrasonic microreactor and its application in gas-liquid mass transfer intensification.Microfluidic resonant cavities enable acoustophoresis on a disposable superstrate.A thin-reflector microfluidic resonator for continuous-flow concentration of microorganisms: a new approach to water quality analysis using acoustofluidics.Impedance matched channel walls in acoustofluidic systems.Continuous separation of particles in a PDMS microfluidic channel via travelling surface acoustic waves (TSAW).Acoustofluidics 8: applications of acoustophoresis in continuous flow microsystems.Acoustofluidics 7: The acoustic radiation force on small particles.Simple and inexpensive micromachined aluminum microfluidic devices for acoustic focusing of particles and cells.

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P2860

Acoustofluidics 5: Building microfluidic acoustic resonators.

http://www.wikidata.org/entity/Q37975948

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Acoustofluidics 5: Building microfluidic acoustic resonators.

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Acoustofluidics 5: Building microfluidic acoustic resonators.

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Acoustofluidics 5: Building microfluidic acoustic resonators.

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Acoustofluidics 5: Building microfluidic acoustic resonators.

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J Nilsson

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P2860

Acoustic differential extraction for forensic analysis of sexual assault evidence.

Tunable acoustophoretic band-pass particle sorter

Chip integrated strategies for acoustic separation and manipulation of cells and particles.

Review of cell and particle trapping in microfluidic systems.

Continuous separation of cells and particles in microfluidic systems.

Recent advances in particle and droplet manipulation for lab-on-a-chip devices based on surface acoustic waves.

Simultaneous positioning of cells into two-dimensional arrays using ultrasound.

Positioning, displacement, and localization of cells using ultrasonic forces.

Observation of yeast cell movement and aggregation in a small-scale MHz-ultrasonic standing wave field.

Acoustical tweezers.

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684-695

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scholarly article

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10.1039/C1LC20996E

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4

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12

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Andreas Lenshof

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2012-01-16T00:00:00Z

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221748830

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22246532

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