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Job Code 0001 Employee Class Civil Service Add to My Favorite Jobs Email this Job About the Job The role of this position is to conduct research on microbial ecology in summer 2026 in the Kennedy
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the reactivity of U(VI) at both macroscopic and molecular scales. The objective of this work will be to propose relevant model systems for studying microbial reduction processes in the presence of bacteria, by
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organic chemistry, biochemistry, natural product chemistry, food science, and microbiology. The research in the advertised position will be conducted within the research group in microbial biotechnology
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and material science leveraging the advanced and new hydrometallurgical approaches that includes the microbial activities and life cycle assessment of metallurgical operations. Project description As a
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education, spearheading groundbreaking research, and delivering unparalleled professional services. For more details, please view https://www.ntu.edu.sg/cee We are looking for a Research Associate in
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the advanced and new hydrometallurgical approaches that includes the microbial activities and life cycle assessment of metallurgical operations. Project description As a Ph.D. student you will use advanced bio
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the Department of Microbiology and Immunology. The research focus for this recruitment is microbial pathogenesis and antimicrobial resistance of bacteria or parasites. Relevant areas include, but are not limited
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constraints. A range of soil-plant-based strategies have been proposed to alleviate the effects of subsoil compaction. These approaches include, for instance, enhancing root metabolic activity and microbial
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awardee, recognized by the FrenchTech AGRI20 program, part of the EIT Food European accelerator, and a member of La Ferme Digitale. To learn more: http://lisaqua.com Thesis objectives Lisaqua is part of
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— such as temperature stress, water limitation, salinity, and CO₂ availability — have shaped Rubisco performance across evolutionary lineages. The project combines plant and microbial ecophysiology