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binding sites and create pharmacophores unique to each pocket – describing key features required for a small molecule to bind. We will combine experimentally determined protein structures with structures
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, where seamless exchange of molecules is necessary for implant function. Our research group have developed a novel platform which actuates (inflates and deflates in a controlled manner) to interfere with
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environment focused on the synthesis, purification and testing of small-molecules to manipulate the antimicrobial resistance of bacterial pathogens. This position offers opportunities to contribute
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. Applicants should submit their application as a single PDF comprising CV, the names, titles, affiliations, and email addresses of three referees, and 800-word outline of initial proposed approach to one
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applications. The project aims to research and commercialize cost-effective manufacturing process for single nanopore and large-scale nanopore array chips, develop nanopore-based detection systems, and validate
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intelligence, and proactive energy orchestration into a single platform, providing a system that can withstand, adapt and recover from the volatility and fluctuations in energy supply, cost and operational needs
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fusing flexibility with AI-driven decision intelligence, and proactive energy orchestration into a single platform, providing a system that can withstand, adapt and recover from the volatility and
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intelligence, and proactive energy orchestration into a single platform, providing a system that can withstand, adapt and recover from the volatility and fluctuations in energy supply, cost and operational needs
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fusing flexibility with AI-driven decision intelligence, and proactive energy orchestration into a single platform, providing a system that can withstand, adapt and recover from the volatility and