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Volume: 32 | Article ID: art00101_1
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Regenerated silk fibroin as an inkjet printable biomaterial
Yu Zhang
David A Gregory
Patrick J Smith
Xiubo Zhao
  DOI :  10.2352/ISSN.2169-4451.2017.32.406  Published OnlineSeptember 2016
Abstract

Regenerated silk fibroin (RSF) protein is an FDA approved biomaterial and has been used as a bio-ink to fabricate structures using inkjet printing. Silk can be present in water soluble amorphous (Silk I) and water insoluble crystalline conformations (Silk II) made up of beta-sheet structures. Here we show the generation of silk scaffolds by inkjet printing of water soluble RSF inks and then converting them into insoluble beta-sheet (Silk II) structure via a second ink containing methanol. This paper focuses on optimising printing conditions of RSF bio-ink through establishing the relationships between RSF peptide concentrations, number of layers and the total thickness of the printed layers. Various patterns such as dot arrays, lines, films, particles and logos have successfully been fabricated. The emerging of inkjet printing of RSF ink allows us to print delicate silk scaffold patterns for different applications specifically in biomedical field.

Journal Title : NIP & Digital Fabrication Conference
Publisher Name : Society for Imaging Science and Technology
Publisher Location : 7003 Kilworth Lane Springfield, VA 22151 USA
Subject Areas :
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 DOI 10.2352/ISSN.2169-4451.2017.32.406
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  Cite this article 

Yu Zhang, David A Gregory, Patrick J Smith, Xiubo Zhao, "Regenerated silk fibroin as an inkjet printable biomaterialin Proc. IS&T Printing for Fabrication: Int'l Conf. on Digital Printing Technologies (NIP32),  2016,  https://doi.org/10.2352/ISSN.2169-4451.2017.32.406

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Articles
Regenerated silk fibroin as an inkjet printable biomaterial
ZhangYu
GregoryDavid A
SmithPatrick J
ZhaoXiubo
12092016
2016
1
406
409
2016
Regenerated silk fibroin (RSF) protein is an FDA approved biomaterial and has been used as a bio-ink to fabricate structures using inkjet printing. Silk can be present in water soluble amorphous (Silk I) and water insoluble crystalline conformations (Silk II) made up of beta-sheet structures. Here we show the generation of silk scaffolds by inkjet printing of water soluble RSF inks and then converting them into insoluble beta-sheet (Silk II) structure via a second ink containing methanol. This paper focuses on optimising printing conditions of RSF bio-ink through establishing the relationships between RSF peptide concentrations, number of layers and the total thickness of the printed layers. Various patterns such as dot arrays, lines, films, particles and logos have successfully been fabricated. The emerging of inkjet printing of RSF ink allows us to print delicate silk scaffold patterns for different applications specifically in biomedical field.