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Materials Chemistry to develop novel heterojunction water-splitting photocatalysts as part of an EPSRC funded project on a 36 month contract. You will join a team supervised by Dr Geoff Hyett, based
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Interview Date: To be confirmed Reference: 2607824EB We are looking to recruit a Research Fellow in Inorganic Materials Chemistry to develop novel heterojunction water-splitting photocatalysts as part of
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research project where you will be part of the research team to develop/produce/investigate Synthesis of light conversion solution involving photocatalyst to absorb Infra-red light for up conversion
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reactions with solar radiation. In this project we propose to combine the unique features of plasmonic metal nanoparticles as photocatalysts[1] with asymmetric reactivity, aiming at performing heterogeneous
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that support a vibrant postgraduate research community and partnerships with national and international research consortia. About you If successful, you will be involved in research to develop new photocatalysts
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will be involved in research to develop new photocatalysts for the hydrogenation of saturated organic molecules. Photocatalysis is a potentially cost-effective method to drive the chemical transformation
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, nanoparticular or photocatalysts, and the elucidation of reaction mechanisms by spectroscopic tools. Catalytic applications in the context of functional molecules, energy carriers, biomass chemistry, and polymer
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-activated approaches. The idea here is to introduce the 5CC-amine chemistry to the field of photo-chemistry. A toolbox of tailor-made monomers and photocatalysts will be conceived to address this challenge
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characterization of new types of photocatalysts, based on metal organic frameworks (MOFs) and metal halide perovskite (MHP) materials as efficient (photo)catalysts for CO2 reduction, focusing on solvent-free
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skills, preferably demonstrated by your previous publication record. The project will focus on the design of flow reactors compatible with heterogeneous photocatalysts and will aim to overcome current