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- Title
Topography‐Supported Nanoarchitectonics of Hybrid Scaffold for Systematically Modulated Bone Regeneration and Remodeling (Adv. Funct. Mater. 51/2022).
- Authors
Jang, Tae‐Sik; Park, Seong Je; Lee, Ji Eun; Yang, Jeongho; Park, Suk‐Hee; Jun, Martin Byung‐Guk; Kim, Young Won; Aranas, Clodualdo; Choi, Joon Phil; Zou, Yu; Advincula, Rigoberto C.; Zheng, Yufeng; Jang, Hae Lin; Cho, Nam‐Joon; Jung, Hyun‐Do; Kim, Sang Hoon
- Abstract
Keywords: additive manufacturing; dopamine-induced polymerization; homogeneous ceramic-ceramic interactions; orthopedic implants; protuberant nanoscale topography EN additive manufacturing dopamine-induced polymerization homogeneous ceramic-ceramic interactions orthopedic implants protuberant nanoscale topography 1 1 1 12/20/22 20221215 NES 221215 B Topography-Supported Nanoarchitectonics b In article number 2206863, Sang Hoon Kim, Hyun-Do Jung, and co-workers describe multifunctional orthopedic implants with enhanced mechanical durability and biocompatibility through the integration of 3D printing technology, dopamine-induced biomineralization, and biomimetic coating. Additive manufacturing, dopamine-induced polymerization, homogeneous ceramic-ceramic interactions, orthopedic implants, protuberant nanoscale topography Topography-Supported Nanoarchitectonics of Hybrid Scaffold for Systematically Modulated Bone Regeneration and Remodeling (Adv. Funct.
- Subjects
BONE regeneration; BONE remodeling; ORTHOPEDIC implants; STEREOLITHOGRAPHY
- Publication
Advanced Functional Materials, 2022, Vol 32, Issue 51, p1
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.202270294