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to have direct impact on patient care and clinical trials. Our program leverages 3D printing (primarily semi-solid extrusion) as the mechanism for reformulating existing pharmaceuticals - both active
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. In addition, CVI2 provides high-performance GPU computing resources that support the design and training of advanced AI models. The research agenda of CVI2 focuses on cutting-edge topics such as 3D
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various disciplines: computer scientists, mathematicians, biologists, chemists, engineers, physicists and clinicians from more than 50 countries currently work at the LCSB. We excel because we are truly
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. size-selected cluster sources. Catalytic testing using ultra-sensitive chip-interfaced electrochemistry–mass spectrometry (EC–MS) and ultra-high-vacuum-compatible thermal catalytic setups. 3D atomic
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The Department of Biomedicine, Faculty of Health, Aarhus University invites applications for a postdoctoral position in Computational Spatial Proteomics and Multi-Omics Integration, starting 1
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; Nanopore Sensing and Sequencing, 3D Tissue Construction, and Device Engineering to create next-generation technologies that translate discovery into clinical impact. EIT Oxford fosters a culture of
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be used to prepare lamella samples for high resolution cryo-EM imaging and tomography. From AI assisted image analysis, 3D models for key proteins and biomolecular complexes will be fitted into 3D
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techniques such as sputtering, E-beam evaporation, chemical synthesis, and advanced magnetic characterization (VSM, SQUID, PPMS). A core strength of the lab is its focus on additive manufacturing (3D printing