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: 2026-04-09 Where to apply Website https://academicpositions.com/ad/kth-royal-institute-of-technology/2026/postdoc… Requirements Research FieldBiological sciencesYears of Research Experience4 - 10
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Expected Start Date: July – Sep 2025 Basic Qualifications A PhD in Bioengineering, Biomedical Engineering, Electrical Engineering, Mechanical Engineering, and/or Neuroscience Extensive experience with
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Sorbonne Universite - Laboratoire de Chimie de la Matière Condensée de Paris (LCMCP) | Paris La Defense, le de France | France | about 16 hours ago
Where to apply Website https://www.abg.asso.fr/fr/candidatOffres/show/id_offre/137752 Requirements Specific Requirements We are seeking a PhD candidate holding a Master’s or Engineering degree in
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the Biomechanics, Wood, and Bio-based Materials axis of LMGC (Laboratory of Mechanics and Civil Engineering, Montpeliier), where we carry out research (experimental and modeling) on the biophysical determinism
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incontinence and tissue fragility. Despite their prevalence, the biomechanical mechanisms underlying these pathologies remain poorly understood. PhD objectives: Menopause is a major physiological transition
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, sample collection (sorting), troubleshooting, and cleaning. Participate in upstream sample processing for flow cytometry analysis and sorting, including blood processing and tissue dissociation. Develop
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: • PhD in Biological Science, Physics, or a related field. • Minimum of four years of dedicated experience in wide-field and confocal microscopy. • Solid background in applying a wide range of imaging and
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., hydrogels, polymers, structured tissues), with applications in biomedical engineering, soft robotics, and more broadly in adaptive multiphysics systems. The developed models will be physically based and will
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liquid and solid, is also at the basis for many innovations such as 3D printing, biological tissue engineering, and robotics. Sound waves, and their associated “radiation pressure,” can apply average
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comprehensive high-throughput UHPLC-HRMS metabolomic workflows to profile human and mammalian biofluids and tissue samples and characterize the novel metabolic pathways involved in metabolic diseases and