Search for dissertations about: "Daniel Simon"
Showing result 6 - 10 of 19 swedish dissertations containing the words Daniel Simon.
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6. A Design Toolkit for Emerging Learning Landscapes Supported by Ubiquitous Computing
Abstract : The widespread use of mobile devices and their integration in our everyday ac- tivities is changing the way we communicate, share information, and learn. The rapid adoption of powerful mobile devices also offers new opportunities to sup- port teaching and learning. READ MORE
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7. Synthetic Functionalities for Ion and Electron Conductive Polymers : Applications in Organic Electronics and Biological Interfaces
Abstract : In the search for understanding and communicating with all biological systems, in humans, animals, plants, and even microorganisms, we find a common language of all communicating via electrons, ions and molecules. Since the discovery of organic electronics, the ability to bridge the gap and communicate be-tween modern technology and biology has emerged. READ MORE
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8. Organic Bioelectronics for Neurotransmitter Release at the Speed of Life
Abstract : 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. READ MORE
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9. Prognostic Factors in Malignant Melanoma
Abstract : Because of the failure so far to find effective treatment for patients with advanced stages of melanoma, increasing efforts have been made to find prognostic factors identifying patients in the risk zone for development of metastasis.This thesis investigates the prognostic powers of a few selected serological and immunohistochemical biomarkers. READ MORE
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10. Expanding the versatility and functionality of iontronic devices
Abstract : 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. READ MORE