Sökning: "acoustic particle manipulation standing wave"
Visar resultat 1 - 5 av 8 avhandlingar innehållade orden acoustic particle manipulation standing wave.
1. Acoustic Standing Wave Manipulation of Particles and Cells in Microfluidic Chips
Sammanfattning : The rise of MEMS and µTAS techniques has created a whole new family of microfluidic devices for a wide range of chemical and biomedical analyses to be performed on small Lab-on-a-chip platforms. The operations often include small samples of particle or cell suspensions on which separation, mixing, trapping or sorting is performed. LÄS MER
2. On acoustic particle and cell manipulation in microfluidic systems
Sammanfattning : The combination of laminar flows in microfabricated channels and acoustic forces induced in ultrasonic standing wave fields offers new possibilities for advanced particle and cell manipulation in lab-on-a-chip applications as well as in relatively high throughput applications. Acoustic particle manipulation systems can be used e.g. LÄS MER
3. Cell and Particle Trapping in Microfluidic Systems Using Ultrasonic Standing Waves
Sammanfattning : Analysis methods are currently being miniaturized in order to save time and money while achieving higher sensitivities. The ultimate goal is to create a lab-on-a-chip where all analysis steps and instruments can be automated and integrated into a single chip. LÄS MER
4. Acoustic manipulation of cells and microbeads in droplet microfluidics
Sammanfattning : Droplet microfluidics has emerged as a promising platform for miniaturisation of biological assays on-chip. In droplet microfluidics small water droplets (nL-pL) surrounded by an immiscible carrier oil are generated at high throughput. LÄS MER
5. Acoustic separation of submicron particles in gaseous flows
Sammanfattning : The separation of submicron particles suspended in gaseous flows is a problem of great importance and is the subject of sustained research efforts. This is motivated by several challenges presented by modern science and technology requiring high separation efficiencies for submicron particles. LÄS MER