T
Tao Sun
Researcher at Beijing Institute of Technology
Publications - 78
Citations - 560
Tao Sun is an academic researcher from Beijing Institute of Technology. The author has contributed to research in topics: Computer science & Microfiber. The author has an hindex of 10, co-authored 60 publications receiving 317 citations. Previous affiliations of Tao Sun include Carnegie Mellon University & Chinese Ministry of Education.
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Journal ArticleDOI
Ionic shape-morphing microrobotic end-effectors for environmentally adaptive targeting, releasing, and sampling
Zhiqiang Zheng,Huaping Wang,Lixin Dong,Qing Shi,Jianing Li,Tao Sun,Qiang Huang,Toshio Fukuda +7 more
TL;DR: In this paper, pre-programmed hydrogel crosslinks were embedded in different patterns within the alginate microstructures in an electric field using different electrode configurations, which enabled the shape-morphing and intelligence to be enhanced.
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Assembly of RGD-Modified Hydrogel Micromodules into Permeable Three-Dimensional Hollow Microtissues Mimicking in Vivo Tissue Structures.
Huaping Wang,Juan Cui,Zhiqiang Zheng,Qing Shi,Tao Sun,Xiaoming Liu,Qiang Huang,Toshio Fukuda +7 more
TL;DR: A versatile method that engineers permeable 3D microtissues into tissue-specific microscopic architectures that will regenerate complex tissues with physiological importance in future tissue engineering is developed.
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Magnetic alginate microfibers as scaffolding elements for the fabrication of microvascular-like structures.
TL;DR: In this article, magnetic alginate microfibers (MAMs) are used as scaffolding elements, where a winding strategy enables them to be formed into micro-rings as annular cell micro-scaffolds.
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On-chip fabrication and magnetic force estimation of peapod-like hybrid microfibers using a microfluidic device
Tao Sun,Chengzhi Hu,Masahiro Nakajima,Masaru Takeuchi,Minoru Seki,Tao Yue,Qing Shi,Toshio Fukuda,Qiang Huang +8 more
TL;DR: In this article, a microfluidic flow-focusing device with a long gelation microchannel is used to encapsulate magnetic oil microdroplets (MOMs) into alginate microfibers.
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Multicellular Co-Culture in Three-Dimensional Gelatin Methacryloyl Hydrogels for Liver Tissue Engineering.
TL;DR: Experimental results demonstrated that 3D lobule-like microtissues fabricated by GelMA hydrogels capable of multicellular co-culture with high cell viability and liver function, which have huge potential for liver tissue engineering and regenerative medicine applications.