Search for dissertations about: "transparent device and polymers"
Showing result 1 - 5 of 8 swedish dissertations containing the words transparent device and polymers.
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1. Design, Synthesis and Characterization of Conjugated Polymers for Photovoltaics and Electrochromics
Abstract : With the invention of organic electronics, a new class of materials needed to be explored and suitable applications found. The use as semiconductors in many different devices has been explored, where photovoltaics, light-emitting diodes and field-effect transistors have been prominent. READ MORE
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2. Neutron and X-ray Surface Scattering Reveals the Morphology of Soft Matter Thin Films
Abstract : The last decades have been overshadowed by reports about the seemingly endless increase use of fossil-based resources. With the development of new products, our mindset is changing so that we more and more need to consider sustainability in our daily lives. READ MORE
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3. Polymer/polymer blends in organic photovoltaic and photodiode devices
Abstract : Organic photovoltaics devices (OPV) have attracted attentions of scientist for their potential as inexpensive, lightweight, flexible and suitable for roll-to-roll production. In recent years, considerable attention has been focused on new acceptor materials, either polymeric or small molecules, to replace the once dominating fullerene derivatives. READ MORE
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4. Light Trapping and Alternative Electrodes for Organic Photovoltaic Devices
Abstract : Organic materials, such as conjugated polymers, have emerged as a promising alternative for the production of inexpensive and flexible photovoltaic cells. As conjugated polymers are soluble, liquid based printing techniques enable production on large scale to a price much lower than that for inorganic based solar cells. READ MORE
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5. Properties of Multifunctional Oxide Thin Films Despostied by Ink-jet Printing
Abstract : Ink-jet printing offers an ideal answer to the emerging trends and demands of depositing at ambient temperatures picoliter droplets of oxide solutions into functional thin films and device components with a high degree of pixel precision. It is a direct single-step mask-free patterning technique that enables multi-layer and 3D patterning. READ MORE