Clay Sculpture‐Inspired 3D Printed Microcage Module Using Bioadhesion Assembly for Specific‐Shaped Tissue Vascularization and Regeneration

Fang, Huimin; Ju, Jingyi; Chen, Lifeng; Zhou, Muran; Zhang, Guo; Hou, Jinfei; Jiang, Wenbin; Wang, Zhenxing; Sun, Jiaming

doi:10.1002/advs.202308381

Advanced Science

2024

DOI: 10.1002/advs.202308381

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Clay Sculpture‐Inspired 3D Printed Microcage Module Using Bioadhesion Assembly for Specific‐Shaped Tissue Vascularization and Regeneration

Huimin Fang,

Jingyi Ju,

Lifeng Chen

et al.

Abstract: Abstract3D bioprinting techniques have enabled the fabrication of irregular large‐sized tissue engineering scaffolds. However, complicated customized designs increase the medical burden. Meanwhile, the integrated printing process hinders the cellular uniform distribution and local angiogenesis. A novel approach is introduced to the construction of sizable tissue engineering grafts by employing hydrogel 3D printing for modular bioadhesion assembly, and a poly (ethylene glycol) diacrylate (PEGDA)‐gelatin‐dopamin… Show more

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Advances in 3D printing for polymer composites: A review

Ma,

Zhang,

Ruan

et al. 2024

InfoMat

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The potential of three‐dimensional (3D) printing technology in the fabrication of advanced polymer composites is becoming increasingly evident. This review discusses the latest research developments and applications of 3D printing in polymer composites. First, it focuses on the optimization of 3D printing technology, that is, by upgrading the equipment or components or adjusting the printing parameters, to make them more adaptable to the processing characteristics of polymer composites and to improve the comprehensive performance of the products. Second, it focuses on the 3D printable novel consumables for polymer composites, which mainly include the new printing filaments, printing inks, photosensitive resins, and printing powders, introducing the unique properties of the new consumables and different ways to apply them to 3D printing. Finally, the applications of 3D printing technology in the preparation of functional polymer composites (such as thermal conductivity, electromagnetic interference shielding, biomedicine, self‐healing, and environmental responsiveness) are explored, with a focus on the distribution of the functional fillers and the influence of the topological shapes on the properties and functional characteristics of the 3D printed products. The aim of this review is to deepen the understanding of the convergence between 3D printing technology and polymer composites and to anticipate future trends and applications.image

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Advances in 3D printing for polymer composites: A review

Ma,

Zhang,

Ruan

et al. 2024

InfoMat

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show abstract

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Clay Sculpture‐Inspired 3D Printed Microcage Module Using Bioadhesion Assembly for Specific‐Shaped Tissue Vascularization and Regeneration

Cited by 1 publication

References 68 publications

Advances in 3D printing for polymer composites: A review

Advances in 3D printing for polymer composites: A review

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