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group. The field of additive manufacturing is rapidly transforming the future of biomaterials and tissue engineering by enabling the precise fabrication of complex biological structures with tailored
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group. Advancements in tissue model development are central to the goals of Print4Life, which seeks to revolutionise how functional, bioengineered structures are designed and fabricated. Within
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evaluating CRN ML models 3. Designing and developing CRN ML architectures for tasks of chemical interest, including reaction property prediction and reaction link prediction. 4. Predicting the properties and
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project will investigate the behaviour and design of rock-socketed anchors through a combination of laboratory experiments and advanced numerical modelling. Laboratory experiments will explore anchor
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of nanoparticle-loaded scaffolds; quantify bone healing, osteointegration, and defect closure in critical-size bone models, and establish dose–response relationships for effective scaffold-mediated delivery
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organs that mimic the complexity of their native counterparts. Despite considerable advances in the field, the limited reproducibility and adaptability of bioprinting are significant challenges