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Field
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-world systems. While most of the work will be computational or mathematical, you will also have the opportunity to visit BASF in Ludwigshafen, Germany for three months to try out the new algorithms in
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atom-transfer radical polymerisation (SI-ATRP) and used to organise chromophores in 3D. You will develop solution-processing routes for the production of quantum optical materials, and design sensors
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of such systems, but this is driven from the fundamental theoretical knowledge that underpin them. What you would be doing: You will be co-creating new models, algorithms and schemes to advance the field of joint
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leading work to accelerate aspects of atomic systems miniaturisation to boost sensor capabilities across the range of being developed. FTE:1 Term: Fixed Term (24 months) Applications are invited for a
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, develop novel approaches for proving hardness, and devise new algorithms. You will be expected to conduct individual research and develop research questions, regularly write research articles at a national
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, transcriptomics (bulk, scRNAseq) epigenetic profiling (methylome, Atac-Seq, Chip-seq) and proteomics, using computational methods. Algorithm Development: Designing and implementing algorithms to process, analyse
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for proving hardness, and devise new algorithms. You will be expected to conduct individual research and develop research questions, regularly write research articles at a national level for peer-reviewed
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systems. Experience in people leadership. Experience in management of Electrical safety in design, installation and operation. Experience of PLC based systems, sensors, field instrumentation, ultra-high
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experience in microcontrollers, control system design, and sensor integration. Knowledge and experience of plasma generation hardware and diagnostic methods. Further information It is essential that you
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(SI-ATRP) and used to organise chromophores in 3D. You will develop solution-processing routes for the production of quantum optical materials, and design sensors for use in early detection of cancer