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Field
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for deploying AM in repair and spare parts support; integrate forward and reverse flows in manufacturing and maintenance environments; optimize strategies for part repair and replacement using AM, including
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. The project focuses on designing and manufacturing innovative microfluidic devices to be used for discovering and isolating novel syntrophic microbes from anoxic environments, with the aim of understanding
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environments. This particular project focusses on chronic infection of halophilic viruses. We offer an excellent opportunity to engage into an exciting PhD project that combines microbiology, genetic, microscopy
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environments; optimize strategies for part repair and replacement using AM, including consolidation and direct repair options; collaborate on real-life case studies from the Ministry of Defence and other
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manufacturing innovative microfluidic devices to be used for discovering and isolating novel syntrophic microbes from anoxic environments, with the aim of understanding microbial interactions, metabolic
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Description Motivation The accumulation of pharmaceutical residues and micro-pollutants in wastewater and the environment has become a problem of growing concern. Although some compounds are easily
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a dynamic environment, are a team player and are interested in collaborating with companies and farmers. Keywords: microbiome analysis; bioinformatics; molecular biology, soil health; agriculture; NGS
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an independent, motivated student with an affinity for multidisciplinary and impact-driven research. You like working in a dynamic environment, are a team player and are interested in collaborating with
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into why people reject markets in critical domains like health and the environment, and how better-designed institutions can increase societal acceptance. As a PhD candidate, you will design and conduct
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5 Sep 2025 Job Information Organisation/Company Leiden University Research Field Engineering » Materials engineering Engineering » Process engineering Environmental science » Global change