Research groups
Indong Jun
Honorary Departmental Postdoctoral Research Assistant
I obtained a PhD degree from the Hanyang University in 2014. Following that, I joined the Korea Institute of Science and Technology (KIST) in Center for Biomaterials until May 2017. Since June 2017, I’ve entering post-doc fellowship at Nuffield Department of Orthopaedics, Rheumatology and Musculoskeletal Sciences (NDORMS), the University of Oxford to get the opportunity to broaden my knowledge and depth of understanding in bone tissue engineering.
All in all, through my ten years of research experience in University and Research Institutes, I have designed suitable materials to tackle the current issues in biomedical research. Additionally, I have obtained cutting-edge skills for characterizing material features and have harnessed solid background knowledge in biomaterials. These invaluable experiences gave me understanding interaction between metallic materials and tissue-specific cells.
My research aims to understand better the mechanisms involved biodegradable metallic devices for an advance to higher level of biomedical application. This research deals with the fundamental physiological issue, and the ultimate goal is to obtained result can be applied further in other Orthopedic Biomedical Research.
Key publications
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Creating Hierarchical Topographies on Fibrous Platforms Using Femtosecond Laser Ablation for Directing Myoblasts Behavior.
Jun I. et al, (2016), Acs appl mater interfaces, 8, 3407 - 3417
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Ultrathin Metal Films with Defined Topographical Structures as In Vitro Cell Culture Platforms for Unveiling Vascular Cell Behaviors.
Jun I. et al, (2016), Adv healthc mater, 5, 2396 - 2405
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Transfer stamping of human mesenchymal stem cell patches using thermally expandable hydrogels with tunable cell-adhesive properties
Jun I. et al, (2015), Biomaterials, 54, 44 - 54
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Transfer Printing of Cell Layers with an Anisotropic Extracellular Matrix Assembly using Cell-Interactive and Thermosensitive Hydrogels
Jun I. et al, (2012), Advanced functional materials, 22, 4060 - 4069
Recent publications
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Current status and outlook on the clinical translation of biodegradable metals
Han H. et al, (2018), Materials today
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Effect of spatial arrangement and structure of hierarchically patterned fibrous scaffolds generated by a femtosecond laser on cardiomyoblast behavior.
Jun I. et al, (2018), J biomed mater res a, 106, 1732 - 1742
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Electrospun Fibrous Scaffolds for Tissue Engineering: Viewpoints on Architecture and Fabrication.
Jun I. et al, (2018), Int j mol sci, 19
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Spatially Assembled Bilayer Cell Sheets of Stem Cells and Endothelial Cells Using Thermosensitive Hydrogels for Therapeutic Angiogenesis
Jun I. et al, (2017), Advanced healthcare materials, 6, 1601340 - 1601340
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Ultrathin Metal Films with Defined Topographical Structures as In Vitro Cell Culture Platforms for Unveiling Vascular Cell Behaviors.
Jun I. et al, (2016), Adv healthc mater, 5, 2396 - 2405
-
Creating Hierarchical Topographies on Fibrous Platforms Using Femtosecond Laser Ablation for Directing Myoblasts Behavior.
Jun I. et al, (2016), Acs appl mater interfaces, 8, 3407 - 3417
-
Transfer stamping of human mesenchymal stem cell patches using thermally expandable hydrogels with tunable cell-adhesive properties
Jun I. et al, (2015), Biomaterials, 54, 44 - 54