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Shery Huang's group 'Biointerface', is driven by translational bioengineering research, focusing on 3D bioprinting/ biofabrication, and developing biomimetic organ-on-chips and organ models.
Living tissues are intricate ensembles of multiple cell types embedded in a complex, but well-defined extracellular matrix (ECM) of topographical and adhesive features ranging from nanometres to micrometres. Cell ladened ECMs act like units of reaction centres and information hubs. Corporation between these small units lead to a hierarchical structure (i.e. a human body) achieving homeostasis (balance).
We combine nanotechnology and new material fabrication techniques to construct the defined biochemical and physical inputs of an ECM scaffold, and to recapitulate the key attributes of a 'niche' unit. Our research is highly multi-disciplinary in nature, crossing fields of engineering, biology, chemistry, polymer physics and computer science. We aim to translate our scientific findings into exploring a new generation of tissue engineering constructs for personalised therapy, at affordable costs; and to provide new solutions for disease monitoring, drug testing, and better patient healthcare.
Shery Huang's group 'Biointerface', is driven by translational bioengineering research, focusing on 3D bioprinting/ biofabrication, and developing biomimetic organ-on-chips and organ models.
Living tissues are intricate ensembles of multiple cell types embedded in a complex, but well-defined extracellular matrix (ECM) of topographical and adhesive features ranging from nanometres to micrometres. Cell ladened ECMs act like units of reaction centres and information hubs. Corporation between these small units lead to a hierarchical structure (i.e. a human body) achieving homeostasis (balance).
We combine nanotechnology and new material fabrication techniques to construct the defined biochemical and physical inputs of an ECM scaffold, and to recapitulate the key attributes of a 'niche' unit. Our research is highly multi-disciplinary in nature, crossing fields of engineering, biology, chemistry, polymer physics and computer science. We aim to translate our scientific findings into exploring a new generation of tissue engineering constructs for personalised therapy, at affordable costs; and to provide new solutions for disease monitoring, drug testing, and better patient healthcare.
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论文共 74 篇作者统计合作学者相似作者
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Advanced healthcare materialspp.e2303720-e2303720, (2024)
TISSUE ENGINEERING PART Ano. 13-14 (2023)
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TISSUE ENGINEERING PART Ano. 13-14 (2023)
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TISSUE ENGINEERING PART Ano. 13-14 (2023)
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ACS APPLIED MATERIALS & INTERFACES (2023)
Advanced Materials Technologiesno. 15 (2023)
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APPLIED PHYSICS REVIEWSno. 1 (2023)
Nature Materialsno. 11 (2023): 1294-1303
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