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nanoparticles interact with each other, even when they have complex, non-spherical shapes (such as rods, cubes, triangles, or stars). To do this, we will generate interaction data points using macroscopic
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silica–based micro- and nanoparticles designed for the incorporation of therapeutic agents (anti-inflammatory and antifibrotic drugs) and/or antibacterial agents. Where to apply Website https
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oligonucleotides, and investigate the biofilm eradication efficacy of functionalized lipid nanoparticles with both Z-DNA-targeting and antigene oligonucleotides Where to apply Website http://www.unipg.it
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are seeking a Research Technologist who will work on a multidisciplinary team in the lab of Dr. Joel Sunshine developing degradable nanoparticle systems for gene delivery and immunotherapy. Responsibilities
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models capable of incorporating the effects of morphology and nanoparticle distribution. The framework will be extended to include damage and softening phenomena induced by matrix–nanoparticle interactions
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nanoparticles. The project is a collaboration between researchers in the Schools of Chemistry and Computer Science, combining cutting edge machine learning methods with world-leading electron microscopy
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products of an electrochemical reaction - Preparation of three types of ultrathin gold films on silicon: films formed from dense monolayers of gold nanoparticles, continuous gold films, and micrometric gold
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selection process for an indefinite employment contract within the framework of a Line of Research R&D line: Development of lipid nanoparticles in the context of immunotherapy and gene therapy https
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) in Paris. It will be co-supervised by Catherine AMIENS, from the LCC's 'Engineering of Metallic Nanoparticles' team (https://www.lcc-toulouse.fr/ en/engineering-of-metal-nanoparticles-team-l/ ) and
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nanoparticles such as Pt and Ir02 under oxygen and hydrogen evolution reaction conditions. About your role: Preparation of Pt and Ir02 nanoparticle model systems Electrocatalytic investigation of Pt and Ir02