基本信息
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职业迁徙
个人简介
His research and teaching covers fundamental and applied biomedical materials science through to engineering applications
Research interests
John's research spans five interdisciplinary themes:
1. Nerve tissue engineering. The design of nerve guidance channels for repairing traumatic peripheral nerve injury – combining biomaterials, 3D fabrication, neuronal, glial and stem cell research.
2. 3D in vitro models of nerve. The use of 3D scaffolds and neuronal/glial co-cultures for 3D in vitro models of nerve as an alternative to animal models for disease, disorder and testing research.
3. 3D in vitro models of skin. The use of 3D scaffolds and keratinocyte/fibroblast co-cultures for 3D in vitro models of skin as an alternative to animal models for inflammatory testing.
4. 3D Imaging and technology development for bioscience applications Established confocal microscopy, 2-photon microscopy, time-resolved microscopy, light sheet microscopy and in vivo confocal microscopy facilities for a wide range of biomaterials and regenerative medicine research at Sheffield University
5. Bioactive surfaces. Creation of biologically active surfaces for medical device applications
Research interests
John's research spans five interdisciplinary themes:
1. Nerve tissue engineering. The design of nerve guidance channels for repairing traumatic peripheral nerve injury – combining biomaterials, 3D fabrication, neuronal, glial and stem cell research.
2. 3D in vitro models of nerve. The use of 3D scaffolds and neuronal/glial co-cultures for 3D in vitro models of nerve as an alternative to animal models for disease, disorder and testing research.
3. 3D in vitro models of skin. The use of 3D scaffolds and keratinocyte/fibroblast co-cultures for 3D in vitro models of skin as an alternative to animal models for inflammatory testing.
4. 3D Imaging and technology development for bioscience applications Established confocal microscopy, 2-photon microscopy, time-resolved microscopy, light sheet microscopy and in vivo confocal microscopy facilities for a wide range of biomaterials and regenerative medicine research at Sheffield University
5. Bioactive surfaces. Creation of biologically active surfaces for medical device applications
研究兴趣
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ACS biomaterials science & engineeringno. 3 (2023): 1472-1485
TISSUE ENGINEERING PART Ano. 13-14 (2023)
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Caroline S Taylor,Joseph Barnes, Manohar Koduri, Shamsal Haq, David A Gregory,Ipsita Roy,Raechelle A D'Sa,Judith Curran,John W Haycock
Macromolecular bioscience (2023)
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RSC Medicinal Chemistryno. 1 (2023): 65-73
MACROMOLECULAR BIOSCIENCEno. 11 (2023)
RSC MEDICINAL CHEMISTRYno. 1 (2023): 65-73
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