Search for dissertations about: "acoustic particle manipulation standing wave"

Showing result 6 - 8 of 8 swedish dissertations containing the words acoustic particle manipulation standing wave.

  2. 6. Acoustic manipulation for cell and spheroid cellomics

    Author : Karl Olofsson; Martin Viklund; Maria Tenje; KTH; []
    Keywords : Biological and Biomedical Physics; Biologisk och biomedicinsk fysik;

    Abstract : Ultrasonic standing wave (USW) particle manipulation has during the last two decades matured into a valuable tool to combine with microfluidics. Acoustophoresis, migration through sound, is the result of the acoustic radiation force acting on particles suspended in an acoustic field. READ MORE

  4. 7. On-chip Ultrasonic Sample Preparation

    Author : Ida Sadat Iranmanesh; Martin Viklund; Johan Nilsson; KTH; []
    Keywords : NATURVETENSKAP; NATURAL SCIENCES; Ultrasound; Sample preparation; Particle manipulation; Fysik; Physics; Biological Physics; Biologisk fysik;

    Abstract : Acoustofluidics has become a well-established technology in the lab-on-a-chip scientific community. The technology involves primarily the manipulation of fluids and/or particles in microfluidic systems. READ MORE

  5. 8. On microchannel acoustophoresis - Experimental considerations and life science applications

    Author : Per Augustsson; Avdelningen för Biomedicinsk teknik; []
    Keywords : TEKNIK OCH TEKNOLOGIER; ENGINEERING AND TECHNOLOGY; microtechnology; microfluidics; lab on a chip; separation; acoustophoresis; ultrasound; acoustic resonance; acoustic radiation force; phage display; circulating tumour cells; acoustofluidics;

    Abstract : This thesis presents experimental studies of microchannel acoustophoresis, a technique for manipulation of microscopic objects in suspension by means of acoustic radiation forces induced by ultrasonic standing wave fields. By arranging an acoustic resonance across the width of a microchannel, the path of individual cells or microparticles can be deflected orthogonally to the fluid flow. READ MORE