Biocomposite Inks for 3D Printing
Three-dimensional (3D) printing has evolved massively during the last years. The 3D printing technologies offer various advantages, including: i) tailor-made design, ii) rapid prototyping, and iii) manufacturing of complex structures. Importantly, 3D printing is currently finding its potential in ti...
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| Year of Publication: | 2021 |
| Language: | English |
| Physical Description: | 1 electronic resource (213 p.) |
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(CKB)5400000000045855 (oapen)https://directory.doabooks.org/handle/20.500.12854/76656 (EXLCZ)995400000000045855 |
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Carrasco, Gary edt Biocomposite Inks for 3D Printing Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 1 electronic resource (213 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Open access Unrestricted online access star Three-dimensional (3D) printing has evolved massively during the last years. The 3D printing technologies offer various advantages, including: i) tailor-made design, ii) rapid prototyping, and iii) manufacturing of complex structures. Importantly, 3D printing is currently finding its potential in tissue engineering, wound dressings, tissue models for drug testing, prosthesis, and biosensors, to name a few. One important factor is the optimized composition of inks that can facilitate the deposition of cells, fabrication of vascularized tissue and the structuring of complex constructs that are similar to functional organs. Biocomposite inks can include synthetic and natural polymers, such as poly (ε-caprolactone), polylactic acid, collagen, hyaluronic acid, alginate, nanocellulose, and may be complemented with cross-linkers to stabilize the constructs and with bioactive molecules to add functionality. Inks that contain living cells are referred to as bioinks and the process as 3D bioprinting. Some of the key aspects of the formulation of bioinks are, e.g., the tailoring of mechanical properties, biocompatibility and the rheological behavior of the ink which may affect the cell viability, proliferation, and cell differentiation.The current Special Issue emphasizes the bio-technological engineering of novel biocomposite inks for various 3D printing technologies, also considering important aspects in the production and use of bioinks. English Information technology industries bicssc bacteria biofabrication 3D printing tissue engineering probiotic food pine sawdust soda ethanol pulping nanocellulose cytotoxicity absorption wound dressings bioprinting cellulose hydrogel physical cross-linking 3D bioprinting biocomposite ink tubular tissue tubular organ bacterial nanocellulose cellulose nanofibrils cellulose nanocrystals bioink collagen ECM extracellular matrix bioinks biomanufacturing biocomposite forest-based MFC fibrils additive manufacturing artificial limb fused deposition modeling (FDM) biofabrication hydrogels growth factor cocktail bioactive scaffold printability carboxylated agarose free-standing human nasal chondrocytes clinical translational polyhydroxyalkanoates scaffolds biomedicine drug delivery vessel stenting cancer 3D cell culture CNF cancer stemness 3-0365-1738-3 3-0365-1737-5 Carrasco, Gary oth |
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English |
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eBook |
| author2 |
Carrasco, Gary |
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Carrasco, Gary |
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g c gc |
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Sonstige |
| title |
Biocomposite Inks for 3D Printing |
| spellingShingle |
Biocomposite Inks for 3D Printing |
| title_full |
Biocomposite Inks for 3D Printing |
| title_fullStr |
Biocomposite Inks for 3D Printing |
| title_full_unstemmed |
Biocomposite Inks for 3D Printing |
| title_auth |
Biocomposite Inks for 3D Printing |
| title_new |
Biocomposite Inks for 3D Printing |
| title_sort |
biocomposite inks for 3d printing |
| publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
| publishDate |
2021 |
| physical |
1 electronic resource (213 p.) |
| isbn |
3-0365-1738-3 3-0365-1737-5 |
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Not Illustrated |
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