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George Emil Palade University of Medicine, Pharmacy, Science, and Technology of Târgu Mureș | Romania | 16 days ago
for biomaterials, implants and devices Advanced 3D printing and bioprinting of scaffolds and implants Intelligent (smart) implants and implantable sensors Translational, regulatory and ethical aspects in preclinical
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interest in many sectors of application, particularly for the development of customised medical devices. Among the various additive manufacturing processes, 3D printing based on photopolymerisation reactions
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. Our focus is on pushing the boundaries of 3D printing technology, particularly in the realm of organic and organic-inorganic polymeric materials with desired optical properties or functionalities
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Liang's research lab. Our focus is on pushing the boundaries of 3D printing technology, particularly in the realm of organic and organic-inorganic polymeric materials with desired optical properties
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Postdoctoral Researcher in Synthetic Organic Chemistry and Photochemistry, IBMM, Montpellier, France
tissues. 3D printing technologies have boosted progress in the field by enabling the fabrication of complex engineered tissues. Nevertheless, printed scaffolds cannot faithfully recapitulate the spatial
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infrastructure systems with interest in applications of new and emerging technologies. Particular areas of interest include: structural 3D printing (metals, concrete, and composites) computational mechanics and
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Researcher in Structural Analysis for 3D Concrete Printing to join our R&D and Engineering team in Barcelona (Spain). The researcher will play a key role in the design, modelling, and structural validation
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surface treatments for 3D-printed metal lattice prostheses in order to address the challenges of fatigue resistance, corrosion, biocompatibility, osseointegration, and bacterial infection prevention
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the 3D printing technique stereolithography; 5) Experience in the characterization of carbon materials, including techniques such as thermogravimetry, scanning electron microscopy, transmission electron
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, modification, and mechanical and/or corrosion testing of bioresorbable metallic materials is required. Previous exposure to vascular biomaterials, 3D printing, and biological characterization is desirable but