D Y Park scite author profile

D Y Park

2Publications

39Citation Statements Received

38Citation Statements Given

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Korea University, Andong National University

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One-stop microfiber spinning and fabrication of a fibrous cell-encapsulated scaffold on a single microfluidic platform

et al. 2014

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This paper provides a method for microscale fiber spinning and the in situ construction of a 3D fibrous scaffold on a single microfluidic platform. This platform was also used to fabricate a variety of fibrous scaffolds with diverse compositions without the use of complicated devices. We explored the potential utility of the fibrous scaffolds for tissue engineering applications by constructing a fibrous scaffold encapsulating primary hepatocytes. The cells in scaffold were cultured over seven days and maintained higher viability comparing with 3D alginate non-fibrous block. The main advantage of this platform is that the fibrous structure used to form a scaffold can be generated without damaging the mechanically weak alginate fibers or encapsulated cells because all procedures are performed in a single platform without the intervention of the operator. In addition, the proposed fibrous scaffold permitted high diffusion capability of molecules, which enabled better viability of encapsulated cells than non-fibrous scaffold even in massive cell culture.

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Study on the fabrication and physical properties of cold-sprayed, Cu-based amorphous coating

Lee

Jung

Park

et al. 2009

J. Phys.: Conf. Ser.

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D Y Park

One-stop microfiber spinning and fabrication of a fibrous cell-encapsulated scaffold on a single microfluidic platform

Study on the fabrication and physical properties of cold-sprayed, Cu-based amorphous coating

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