Sökning: "Lab-on-a-chip"
Visar resultat 1 - 5 av 14 uppsatser innehållade ordet Lab-on-a-chip.
1. Microfluidic flow splitter shape optimization for high throughput
Kandidat-uppsats, Lunds universitet/Avdelningen för Biomedicinsk teknikSammanfattning : Due to an increasing incidence rate, the need for new effective methods for diagnosing cancer are of high importance. Studies have shown that circulating tumor cells, CTCs, have great potential as a diagnostic biomarker. Acoustophoresis is a label free method, capable of separating CTCs from red blood cells in a blood sample. LÄS MER
2. Robust and Biocompatible Bonding of Hybrid Microfluidic Devices Using Off-Stoichiometric Thiol-ene Thermosets
Master-uppsats, KTH/Skolan för elektroteknik och datavetenskap (EECS)Sammanfattning : Some of the major obstacles the microfluidics industry has yet to overcome in order to facilitate large scale manufacturing of devices are costly back-end processes. Among these, bonding presents some of the most obvious difficulties and is often associated with structural deformation and surface modification. LÄS MER
3. Design improvements for an Organ-on-chip system : Implementation and evaluation of a bubble trap
Uppsats för yrkesexamina på grundnivå, Uppsala universitet/Institutionen för materialvetenskapSammanfattning : The field of organ-on-chip is a relatively new area of research and builds upon the principle of engineering microfluidic systems to mimic the body’s internal environment as precisely as possible. Eventually these models could hopefully simulate whole organ-systems and enable the examination of the cell’s or organ’s reaction to foreign substances like new pharmaceuticals in a better way than current models. LÄS MER
4. Mikrofluidikchipp för exponering av biologiska partiklar för varierande molekylära stimuli
Kandidat-uppsats, Lunds universitet/Avdelningen för Biomedicinsk teknikSammanfattning : Easy exposure of biological particles for molecular stimuli is of interest when examining the effects of antibiotics on different bacteria or to perform toxicity analysis for biophysical studies of vesicles. Such experiments require advanced equipment that can only be found in laboratories and are vastly time-consuming. LÄS MER
5. Adapting FDM 3D-printing for the manufacture of microfluidic devices
Master-uppsats, Lunds universitet/Avdelningen för Biomedicinsk teknikSammanfattning : Microfluidic devices have so far not seen widespread use, even though they could potentially be cheaper, better and faster than traditional methods. A possible reason for this is the lack of a middle step between one-of-a-kind experimental devices and cheap mass produced devices. LÄS MER