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enantioselective. Applicants should have (or be about to obtain) a PhD in synthetic organic chemistry. Experience in modern synthetic techniques in a leading research environment is essential, ideally in
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the dynamics of charge/discharge processes in electrolyte and ionic liquid systems [see, e.g., Pireddu et al., doi: 10.26434/chemrxiv-2023-2ccrw]. Understanding how the solution environment impacts crystal
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/chemrxiv-2023-2ccrw]. Understanding how the solution environment impacts crystal morphology, with an emphasis of polar crystal surfaces [see, e.g., Sayer & Cox, JCP 153, 164709 (2020)]. Developing new
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to taking up your appointment. You should have experience in working in clean-room environments and be experienced in microfluidic device design and fabrication as well as clean-room workflows. You should be
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their research independence and leadership skills in a supportive and team-oriented environment. They will also be able to undertake a small amount of undergraduate teaching (e.g., small group tutorials
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the solution environment impacts crystal morphology, with an emphasis of polar crystal surfaces [see, e.g., Sayer & Cox, JCP 153, 164709 (2020)]. Developing new theoretical approaches to efficiently describe
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promoting equality and diversity in all its practices and activities. We aim to establish an inclusive environment and welcome diverse applications from the following protected characteristics: age