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circuit current of thin film solar cells based on organic and/or perovskite materials. It is expected that the properties of the fabricated devices will be suitable for applications in transforming light to
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optimisation of single-step magnetic bead-based bioassays, development of paper devices for assay easy handling, and implementation of electrochemical detection using thin-film electrode devices to produce fast
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. The successful candidate will be joining the Organic Nanostructured Photovoltaics group led by Prof. Dr. Jordi Martorell to undertake research in the characterization of thin film solar cells based on organic
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to be developed: Implement and optimize inkjet printing processes using Fujifilm Dimatix printers, both in ambient and inert conditions. Optimize photochromic films printed on various substrates
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) (0–30 points). * Experience in the characterization of thin-film materials (structural, morphological, and optical) (0–20 points). * Experience in the processing, and testing of optoelectronic devices
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on artificial 2D heterostructures. It will also involve the nanofabrication of microdevices (using techniques such as thin film deposition, electron-beam lithography and etching), and their electrical
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the nanofabrication of microdevices (using techniques such as thin film deposition, electron-beam lithography and etching), and their electrical transport characterization. A major objective is to explore