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sur l’étude du fil de chanvre dans un contexte de transition écologique. Les biocomposites à fibres végétales, constituent une alternative crédible aux composites synthétiques [1]. Aujourd’hui, sur le
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Folding of liquid silk into a fibre School of Biosciences PhD Research Project Self Funded Prof Mike Williamson, Dr C Holland Application Deadline: Applications accepted all year round Details Silk
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Dalhousie University | Halifax Mid Harbour Nova Scotia Provincial Government, Nova Scotia | Canada | 3 days ago
Position Details Position Information Position Title Research Associate Research Project Flax to Fibre Department/Unit Architecture Location Halifax, Nova Scotia, Canada Posting Number S047-26
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Advanced Carbon Fibre Composites using Next-Generation Additive Manufacturing (CFAM) School of Mechanical, Aerospace and Civil Engineering PhD Research Project Self Funded Prof Patrick Fairclough
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on Smart Fibre-Optic High-Power Photonics (HiPPo). The HiPPo programme (https://www.hippo-laser.co.uk/ ) is focused on understanding how to control the properties of fibre lasers, to go beyond the “fixed
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Dalhousie University | Halifax Mid Harbour Nova Scotia Provincial Government, Nova Scotia | Canada | about 20 hours ago
Position Details Position Information Position Title Research Coordinator Research Project Flax to Fibre/Peter Gilgan Foundation Department/Unit Architecture Location Halifax, Nova Scotia, Canada
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Dalhousie University | Halifax Mid Harbour Nova Scotia Provincial Government, Nova Scotia | Canada | 3 days ago
Position Details Position Information Position Title Research Coordinator Research Project Flax to Fibre/Peter Gilgan Foundation Department/Unit Architecture Location Halifax, Nova Scotia, Canada
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scientific challenges in a welcoming and collegial atmosphere. Our successful track record of scientific achievements ranges from nanophotonics, nonlinear photonics, and fibre lasers to medical lasers and bio
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on Smart Fibre-Optic High-Power Photonics (HiPPo). The HiPPo programme (https://www.hippo-laser.co.uk/ ) is focused on understanding how to control the properties of fibre lasers, to go beyond the “fixed
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, and optical glasses and fibres dedicated to the mid-infrared. State-of-the-art experimental equipment is part of the Equipex+ 'SMARTLIGHT' platform. Where to apply Website https://emploi.cnrs.fr