Search for dissertations about: "semiconducting polymer"
Showing result 1 - 5 of 37 swedish dissertations containing the words semiconducting polymer.
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1. Thermoelectric plastics: Structure-property relationships of P3HT
Abstract : The advancing development of inter-connected small devices, so-called Internet of Things is increasing the demand for independent power sources. Heat is an abundant and often wasted source of energy, thermoelectric generators could be used to harvest this waste energy. Small devices such as heart-rate monitors or gas sensors etc. READ MORE
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2. Polymer Light Emitting Devices : A study on how the electrode-polymer interface affects the performance of polymer light emitting devices
Abstract : The research reported in this thesis is concerned with a new type of semiconductor device that can be realised by using thin films of semiconducting polymers, or conjugated polymers. In this thesis only one family of these conjugated polymers is studied, namely poly-(para-phenylene vinylene) and derivatives thereof. READ MORE
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3. Multistability, Ionic Doping, and Charge Dynamics in Electrosynthesized Polypyrrole, Polymer-Nanoparticle Blend Nonvolatile Memory, and Fixed p-i-n Junction Polymer Light-Emitting Electrochemical Cells
Abstract : A variety of factors make semiconducting polymers a fascinating alternative for both device development and new areas of fundamental research. Among these are solution processability, low cost, flexibility, and the strong dependence of conduction on the presence of charge compensating ions. READ MORE
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4. Electrically Conducting Cellulose Yarns for Electronic Textiles
Abstract : Wearable electronics can be used for the purpose of fitness tracking, health monitoring, energy harvesting, and even for communication. Electronic textiles (e-textiles) are a versatile platform which can be employed for the realization of wearable electronics. READ MORE
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5. Visualising Functional Nanostructures of Organic Semiconductors using Electron Microscopy
Abstract : Organic semiconducting materials have enabled the solution-processable fabrication of light-weight and flexible electronic devices. In particular, doping using molecular dopants has enabled the fabrication of high-performance organic electronics. READ MORE