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Field
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unique atmosphere where there is expertise to dig deep into computational modelling, while remaining connected to the experimental side. This interdisciplinary atmosphere has been a main catalyst for many
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ample opportunities for direct validation in biologically relevant settings. This interdisciplinary atmosphere has been a main catalyst for many past successes: https://europepmc.org/article/MED/35021063
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ample opportunities for direct validation in biologically relevant settings. This interdisciplinary atmosphere has been a main catalyst for many past successes: https://europepmc.org/article/MED/35021063
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investigating degradation mechanisms within the framework of green energy conversion and climate change. The open position aims to understand catalyst stability at the nanoscale during electrochemical processes
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chemistry, and catalysis, all driven by a passion for creating and breaking bonds using organic and organometallic catalysts. Our research focuses on converting oxygenated molecules (C1 molecules, plastic
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relationships in unprecedented detail. This information then informs rational catalyst design and formulation that are investigated with a wide array of larger scale techniques. Example project areas include
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Project details Digitalisation is widely promoted as a catalyst for growth and innovation, yet many SMEs and family firms in emerging economies struggle to adopt and benefit from digital
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energy efficiency. We will develop ultrahigh throughput assays to screen metagenomic libraries for new catalysts for applications in recycling, bioremediation and green chemistry. Candidate enzymes
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for Sustainable and Circular Chemistry. We focus on characterisation, performance, and synthesis of inorganic functional materials with special emphasis on well-defined heterogeneous catalysts for energy storage
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each year worldwide are used for NH3 synthesis (i.e. H2 production), reflecting the current carbon footprint of the process: 1.2% of the CO2 produced each year worldwide. Research into catalysts for NH3