Sökning: "Bioelectronics"
Visar resultat 16 - 20 av 27 avhandlingar innehållade ordet Bioelectronics.
16. Improved mechanical properties of a polar polythiophene through copolymerization or blending with urethanes
Sammanfattning : Polar polythiophenes with oligoethylene glycol side chains are a developing class of materials that are great candidates for energy harvesting and storage as well as bioelectronics. The polar side chains enhance the compatibility with molecular dopants and improve the electrical conductivity and thermal stability of the doped material. LÄS MER
17. Synthetically simple conjugated polymers for organic electrochemical transistors
Sammanfattning : The soft and flexible nature of organic materials makes them suitable for the integration into wearable or implantable devices. This paves the way for the development of next-generation bioelectronic systems for e.g. medical diagnostics. LÄS MER
18. Expanding the versatility and functionality of iontronic devices
Sammanfattning : Biological systems rarely use electrons as signal regulators, most of the transport and communication in these system utilize ions. The discovery of conjugated polymers and polyelectrolytes and their unique properties of mixed ionic electronic properties opened the possibility of using these in the domain of bioelectronics, which paved the way for the field of organic bioelectronics. LÄS MER
19. Development of a method for highly localized growth of carbon nanotubes
Sammanfattning : A method for growing carbon nanotubes on chip using highly localizedresistive heating is developed. By deliberately designing molybdenumelectrodes to be highly resistive in a very small region we create amicrometer sized hot-zone where carbon nanotubes can be grown. LÄS MER
20. Living biohybrid systems via in vivo polymerization of thiophene oligomers
Sammanfattning : Life is the result of a multitude of electrical signals which drives our nervous system but also accomplishes a cascade of electrochemical reactions. In the 18th century, Lucia Galeazzi and Luigi Galvani got the idea to stimulate frog legs with electrodes. LÄS MER