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DC13: Structural engineering of bioreceptors for graphene Responsibilities and qualifications The candidates hired for this position will lead one of four DTU projects (DC2, DC3, DC12 or DC13) with
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, reaction kinetics and dynamics, and theory/simulation of ultrafast time-resolved experiments. will be a part of the Physical Chemistry section at DTU Chemistry (https://www.kemi.dtu.dk/english/research
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, statistical mechanics, reaction kinetics and dynamics, and theory/simulation of ultrafast time-resolved experiments. You will be a part of the Physical Chemistry section at DTU Chemistry (https
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metal-organic framework (MOF) structures, enabling them to exhibit rapid and cooperative responses to external stimuli such as temperature, pressure, and light. This conceptually new class of chameleonic
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relatively energy-inefficient nonlinearities, e.g. compared to electronics. Resonant structures can enhance the nonlinear interaction and therefore increase the energy efficiency of the process. This PhD
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of Biology, E-mail: lellgaard@bio.ku.dk, Direct Phone: +4532351725, website: https://www1.bio.ku.dk/english/research/bms/pbg/le/ . The PhD programme Depending of your level of education, you can undertake the
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the Ministerial Order on Job Structure for Academic Staff at Universities (in Danish). Salary and terms of employment are in accordance with the collective agreement between the Danish Confederation
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to evolve classical communication networks to support both traditional data and the unique requirements of quantum information systems (https://www.classique.aau.dk). CLASSIQUE will address a suite of
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and experimentally demonstrate the potential of advanced optical materials for nanoscale photonics. Your role will involve using a variety of experimental techniques, including fabrication, structural
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generation of minimally invasive systems with superior dexterity and compliance, enabling navigation through complex anatomical structures such as blood vessels, the bronchial tree, and endoscopic pathways