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engineering of the polymer/monomer purification steps. The main objectives are: To gain physicochemical insights in the interaction between polymers present in footwear and solvents/reagents To optimize
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logical choice for its staff and students. YOUR TASKS You perform comprehensive analyses of pyrolysis feedstocks and resulting products. You develop and optimize GC×GC methods for the characterization
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packaging applications. Responsibilities: Investigate the mechanisms of plasma–tissue, plasma–biomaterial, and plasma–food packaging interactions. Develop and optimize cold plasma treatments to enhance
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strategies for efficient utilisation of wireless resources and interference/jamming avoidance and methods for optimal unicast and multicast/broadcast transmissions, often empowering cutting edge AI/ML
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. The central aim is to design intelligent systems that dynamically adapt the environment to support optimal learning conditions, based on real-time neurophysiological feedback. Key principles guiding
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known for its research on thermal energy. Both experimental and numerical techniques are used in the analysis, design and optimization, resulting in a unique position in the field. The overall goal is to
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of the spider mite and developing innovative strategies for the stable integration of large DNA fragments. As a PhD student, you will play a central role in developing and optimizing this transformation
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, or SLs) to investigate their role in the defense of chicory against thrips and other insects. You will develop and optimize methods to extract, purify, characterize and structurally identify
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use. The PhD project will also explore optimization approaches for feed formulation that simultaneously balance animal performance, feed cost, and sustainability objectives. Throughout the project
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includes; Design and optimize Perovskites (doped and in-situ exsolved) for enhanced OER in solid oxide electrolysis process to reduce CO₂ into syngas precursors. Develop and characterize copper-based nano