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DTU Tenure Track Researcher on Nanoreactors for Operando Visualizations of Nanoparticle Catalysis...
microscopy for nanoparticle catalysis at the Center for Visualizing Catalytic Processes (VISION). Responsibilities and qualifications You will engage with VISION’s development and application of nanoreactors
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operando electron microscopy for nanoparticle catalysis at the Center for Visualizing Catalytic Processes (VISION). Responsibilities and qualifications You will engage with VISION’s development and
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are seeking a creative Postdoctoral Scholar to join our team and advance magnetic and high entropy alloy nanoparticle synthesis and characterization. You will design and synthesize high entropy alloy
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position is to advance our understanding of the foliar uptake of nanoparticles by plants. The researcher will participate in scientific literature monitoring to publish a review on the latest knowledge
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Description Natural nanoparticles are ubiquitous in aquatic environments and play an important role in the fate of pollutants. Given the growing concerns about emerging contaminants, particularly
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for the treatment of infection-triggered inflammatory states, centred on a rational design of tailor-made nanoparticulate drug carriers. Pharmacologically active nanoparticles based on functional synthetic polymers
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Date 02/09/2026 Job Summary We are seeking a highly motivated Research Scientist to advance local drug delivery strategies and high-throughput nanoparticle screening for therapeutic applications in
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of coated inorganic nanoparticles In vitro assays In vivo analysis WHAT WE ARE LOOKING FOR You hold a thesis-based doctorate in chemistry, biomaterials or related You have proven experience with synthesis and
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the EU Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description 1) Preparation of multifunctional nanoparticles
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BIOS-06/A - A synaptic mechanogenetic technology to repair brain connectivity - CUP: J93C22002400006
insufficient spatial resolution and challenges related to in vivo implementation. The project proposes a novel platform based on biocompatible magnetic nanoparticles and synaptic mechanosensors designed