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. Photoacoustic sensing (introductory video: https://youtu.be/2f3V0DQNLYg ) is based on a transformation of absorbed optical energy into ultrasound waves, when a transient optical excitation is used. The optical
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), INSERM (FR), University Utrecht (NL), SciCross (SE), RD –Néphrologie SAS (FR), University of Bern (CH). For more information https://www.cordis.europa.eu/project/id/101225380 Your Research Environment In
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of metabolic dysfunction-associated steatohepatitis Polymeric nanoparticles as a model system for targeted drug delivery and imaging of nervous tissue Rare disease-associated variants in NMDAR genes: impact on
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ultrasound, Laboratoire d'imagerie Biomedical, LIB , https://www.lib.upmc.fr/ ) and nanoparticle engineering ( PHENIX Laboratory https://phenix.cnrs.fr/ ). The LIB is located in the Centre de Recherche des
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elementary friction phenomena and is focused on the usage of nanoparticle, lubricant additives, tribochemistry at the local scale to reduce friction and wear in the contact area. Scientific collaborations with
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nanoparticle/nanozyme synthesis and characterization, and in the study of enzyme-mimetic/catalytic activities. Experience in nanobiointeraction characterizations. A strong publication record and the ability
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. Vaccination of small sized fish for early disease prophylaxis remains a challenge for many infectious diseases in aquaculture. By exploring different nanoparticle approaches and tailoring vaccine formulations
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responsibilities will focus on the production and water-transfer application of magnetic nanoparticles and magnetic nanoparticle assemblies. These will be studied as magnetic robots or incorporated into injectable
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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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by metal nanoparticles, cell survival and radioresistance. The MS-RADAM research programme combines state-of-the-art computational multiscale modelling (using DFT/TDDFT methods, collision theory