3D hierarchical scaffolds enabled by a post-patternable, reconfigurable, and biocompatible 2D vitrimer film for tissue engineering applications

Na Kyung Kim; Eun Jung Cha; Mungyo Jung; Jinseok Kim; Gun-Jae Jeong; Yong Seok Kim; Woo Jin Choi; Byung-Soo Kim; Dong-Gyun Kim; Jong-Chan Lee

doi:10.1039/C9TB00221A

3D hierarchical scaffolds enabled by a post-patternable, reconfigurable, and biocompatible 2D vitrimer film for tissue engineering applications†

Na Kyung Kim,^a Eun Jung Cha,^b Mungyo Jung,

^a Jinseok Kim,^a Gun-Jae Jeong,^a Yong Seok Kim,^b Woo Jin Choi,

^c Byung-Soo Kim,^a Dong-Gyun Kim

*^b and Jong-Chan Lee

*^a

Author affiliations

* Corresponding authors

^a School of Chemical and Biological Engineering, and Institute of Chemical Processes, Seoul National University, 599 Gwanak-ro, Gwanak-gu, Seoul 08826, Republic of Korea
E-mail: jongchan@snu.ac.kr

^b Advanced Materials Division, Korea Research Institute of Chemical Technology, 141 Gajeong-ro, Yuseong-gu, Daejeon 34114, Republic of Korea
E-mail: dgkim@krict.re.kr

^c Chemical Materials Solutions Center, Korea Research Institute of Chemical Technology, 141 Gajeong-ro, Yuseong-gu, Daejeon 34114, Republic of Korea

Abstract

A mechanically tissue-like, biocompatible vitrimer film for tissue engineering scaffold applications is presented. 3D hierarchical scaffolds are prepared from the 2D vitrimer film via transesterification-induced hot embossing patterning and additional reconfiguration processes. Microsized grooves patterned on the vitrimer surface are found to enhance C2C12 cell elongation and alignment for promoted muscle regeneration.

Journal of Materials Chemistry B

3D hierarchical scaffolds enabled by a post-patternable, reconfigurable, and biocompatible 2D vitrimer film for tissue engineering applications†

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3D hierarchical scaffolds enabled by a post-patternable, reconfigurable, and biocompatible 2D vitrimer film for tissue engineering applications

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