Sökning: "Klas Tybrandt"
Visar resultat 1 - 5 av 6 avhandlingar innehållade orden Klas Tybrandt.
1. Ionic Circuits for Transduction of Electronic Signals into Biological Stimuli
Sammanfattning : Modern electronics has revolutionized the way information is processed and stored in our society. In health care and in biology it is of great interest to utilize technology to regulate physiology and to control the signaling pathways. LÄS MER
2. Organic Bioelectronics for Neurotransmitter Release at the Speed of Life
Sammanfattning : The signaling dynamics in neuronal networks includes processes ranging from lifelong neuromodulation to direct synaptic neurotransmission. In chemical synapses, the time delay it takes to pass a signal from one neuron to the next lasts for less than a millisecond. LÄS MER
3. Screen Printed Stretchable Electronics
Sammanfattning : Wearable electronics that can be seamlessly integrated into clothing, onto skin, or inside the body, can enable a variety of novel applications within healthcare monitoring, biosensing, biomedical devices and the internet of things. Seamless integration requires matching of the mechanical properties of the electronics to clothing, skin, and tissues, i. LÄS MER
4. 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
5. Materials and Devices for Stretchable Electronic Nerve Interfaces
Sammanfattning : Within our body, there is a large network of nerves that facilitates communication between the brain and the body’s organs. This network is called our peripheral nervous system, consisting of soft and stretchable nerve bundles that gradually increase in their functional specificity as they split and branch out the closer they get to their target organ. LÄS MER