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cell–derived organoids; patient–derived organoids; organ-on-chip platforms; microphysiological systems (MPS); 3D bioprinting of tissues and organs; advanced biofabrication techniques; integrated multi
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duties and responsibilities Carry out research in modelling and simulation of particulate processes using appropriate software packages for techniques such as DEM, CFD, FEA and Machine Learning. Develop
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into target cells. However, the delivery of mRNA into the cell remains a challenge due to limited endosomal escape. To overcome the endosomal escape barrier, this project aims to computationally design proteins
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services Employee discounts on a variety of products and services including cell phones & plans, entertainment, health and fitness, restaurants, retail, and travel Growth and professional development
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death & dismemberment, accident, critical illness, hospital indemnity, and pet. Free transit on most UTA services Employee discounts on a variety of products and services, including cell phones & plans
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and services, including cell phones & plans, entertainment, health and fitness, restaurants, retail, and travel Professional development opportunities Additional benefits information is available
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, hospital indemnity, and pet. Free transit on most UTA services Employee discounts on a variety of products and services, including cell phones & plans, entertainment, health and fitness, restaurants, retail
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discounts on a variety of products and services, including cell phones & plans, entertainment, health and fitness, restaurants, retail, and travel Professional development opportunities Additional benefits
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storage systems and studies of interfacial and degradation processes in lithium cells, confirmed by publication record, participation in research projects, and professional experience; at least 5 years of
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Supervisor: prof. RNDr. Robert Vácha, PhD. Topic title: Designing Coiled-Coil Peptides for Controlled Membrane Fusion and Intracellular Delivery Annotation: Most approved drugs act on cell-surface targets