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Funded by a Royal Society Faraday Discovery Fellowship, you would be working on the project "Predicting synthesisable materials: bridging the gap between computation and experiment", working
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Funded by a Royal Society Faraday Discovery Fellowship, you would be working on the project "Predicting synthesisable materials: bridging the gap between computation and experiment", working
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Solutions, you will apply your methods in detailed simulation studies using Imperial’s high-performance computing facilities, assessing performance in realistic scenarios. You will regularly present your
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chemistry, ideally with experience in performing reactions in parallel, handling automated kinetic instruments, and associated analytical techniques (HPLC, GC). Knowledge of Design-of-Experiment and automated
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measurements possible until the next generation experiments are ready at the end of this decade. In parallel you will carry out R&D for the readout electronics and other aspects of DUNE’s phase II near detector
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transformations, Lie derivatives, stochastic variational principles and computational methods • Excellent written (English) communication skills and the ability to write clearly and succinctly for publication
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Starting Date 1 Feb 2026 Is the job funded through the EU Research Framework Programme? Horizon Europe - MSCA Reference Number 101227683 Marie Curie Grant Agreement Number 101227683 Is the Job related to
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combination of interdisciplinary methods to solve the current burning questions in the field. These methods currently include biochemistry, biophysics, spectroscopy, structural biology (particularly cryo-EM
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equipment including manual milling machines and lathes, and Computer Numerically Controlled (CNC) machines. You will ensure that all equipment used is functioning safely and correctly, trouble shooting
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1 Feb 2026 Is the job funded through the EU Research Framework Programme? Horizon Europe - MSCA Is the Job related to staff position within a Research Infrastructure? No Offer Description Applications