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. By combining advanced AI recognition with live inventory monitoring, FabricFlow addresses long-standing inefficiencies in supply chains caused by manual processes, disconnected data, and lack
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opportunity to collaborate with leading experts in research on foetuses/neonates/infants led by Prof Grainne McAlonan, Professor David Edwards, and Dr Dafnis Batalle; research on sensory processing by Dr Nick
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foldamer catalysts, and their application towards a variety of stereoselective processes, including organocatalytic and photocatalytic reactions. Applicants should have extensive experience in both small
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emulators of similar datasets (e.g. Gaussian Process methods by the project lead). These results will inform the IPCC AR7, and adaptation and mitigation policymaking by other global stakeholders. You will be
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and taught postgraduate students and over 250 PhD students within our London operation, supported by an administrative and technical staff of around 50. About Queen Mary At Queen Mary University
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will be involved in processing and analysing tissue collected from patients undergoing surgery, using whole genome sequencing, transcriptomics and proteomics. You will be heavily involved in designing
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research hub (HI-ACT) funded by EPSRC. The project seeks to deliver industry-relevant tools that enable optimal design and operation of hydrogen technologies in real-world application. The successful
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process. Further information We pride ourselves on being inclusive and welcoming. We embrace diversity and want everyone to feel that they belong and are connected to others in our community. We
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biology capabilities within a dynamic, multidisciplinary research environment at King’s College London. The successful candidate will bring deep expertise in tissue processing, digital pathology, spatial
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opportunity to collaborate with leading experts in research on foetuses/neonates/infants led by Prof Grainne McAlonan, Professor David Edwards, and Dr Dafnis Batalle; research on sensory processing by Dr Nick