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Your job Are you passionate about researching social science dimensions of climate change and water scarcity? Do you want to explore how diverse communities and governance actors perceive and
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power of self-driving laboratories and artificial intelligence to accelerate the discovery of phosphoramidite ligands focusing on their use for catalytic reactions in water. Phosphoramidites are
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PhDs Artificial Design of Phosphoramidites for Asymmetric Catalysis in Water (2.0 FTE) (V24.0365) « Back to the overview Job description We are looking for two PhD candidates for a joint project
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This exciting fully funded PhD, sponsored by EPSRC CDT Water Infrastructure and Resilience II (WIRe II), offers an enhanced stipend of £24,000 per annum with all fees covered. The project, titled
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There is currently only sparse evidence of the pathways linking water justice and Indigenous water governance with mental health outcomes. The psychosocial and environmental impacts of ongoing
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ecosystems and healthy rivers play a vital role in the movement of water, the cycling of nutrients and for biodiversity resilience. Despite this, many of the worlds rivers are not healthy and are subject to
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PhD positions: Artificial Design of Phosphoramidites for Asymmetric Catalysis in Water (2 x 1.0 FTE)
power of self-driving laboratories and artificial intelligence to accelerate the discovery of phosphoramidite ligands focusing on their use for catalytic reactions in water. Phosphoramidites are
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Future food security relies on the efficient and sustainable use of finite land and water resources. Water use efficiency in crops is critical, especially in irrigated systems. Surfactants can
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PhD Studentship in: Understanding risks from emerging contaminants (PFAS) to surface water resources
PhD Studentship in: Understanding risks from emerging contaminants (PFAS) to surface water resources Department of Civil and Structural Engineering PhD Research Project Directly Funded Students
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by Procter and Gamble and will be focused on the development of novel renewable and biodegradable water-soluble detergent ingredients through a circular economy approach. The candidate will research