Dimension‐Based Design of Melt Electrowritten Scaffolds
Abstract: The electrohydrodynamic stabilization of direct‐written fluid jets is explored to design and manufacture tissue engineering scaffolds based on their desired fiber dimensions. It is demonstrated that melt electrowriting can fabricate a full spectrum of various fibers with discrete diameters (2–50 µm) using a single nozzle. This change in fiber diameter is digitally controlled by combining the mass flow rate to the nozzle with collector speed variations without changing the applied voltage. The greatest spectrum of fiber diameters was achieved by the simultaneous alteration of those parameters during printing. The highest placement accuracy could be achieved when maintaining the collector speed slightly above the critical translation speed. This permits the fabrication of medical‐grade poly (ε‐caprolactone) into complex multimodal and multiphasic scaffolds, using a single nozzle in a single print. This ability to control fiber diameter during printing opens new design opportunities for accurate scaffold fabrication for biomedical applications.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Dimension‐Based Design of Melt Electrowritten Scaffolds ; volume:14 ; number:22 ; year:2018 ; extent:6
Small ; 14, Heft 22 (2018) (gesamt 6)
- Creator
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Hrynevich, Andrei
Elçi, Bilge Ş.
Haigh, Jodie N.
McMaster, Rebecca
Youssef, Almoatazbellah
Blum, Carina
Blunk, Torsten
Hochleitner, Gernot
Groll, Jürgen
Dalton, Paul D.
- DOI
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10.1002/smll.201800232
- URN
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urn:nbn:de:101:1-2022081506291604719951
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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15.08.2025, 7:26 AM CEST
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Associated
- Hrynevich, Andrei
- Elçi, Bilge Ş.
- Haigh, Jodie N.
- McMaster, Rebecca
- Youssef, Almoatazbellah
- Blum, Carina
- Blunk, Torsten
- Hochleitner, Gernot
- Groll, Jürgen
- Dalton, Paul D.
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Advances in Hybrid Fabrication toward Hierarchical Tissue Constructs
Charakterisierung eines 3D-Mikrotumormodells zur Untersuchung von Tumor-Stroma-Interaktionen
Tailored Melt Electrowritten Scaffolds for the Generation of Sheet-Like Tissue Constructs from Multicellular Spheroids
Melt electrowriting below the critical translation speed to fabricate crimped elastomer scaffolds with non-linear extension behaviour mimicking that of ligaments and tendons
Fibre pulsing during melt electrospinning writing
Additive manufacturing of scaffolds with sub-micron filaments via melt electrospinning writing
Branched silica precursors as additives for mineral bone cements
Vergleichende Untersuchung zum Verhalten von autogenen Ossikeln, Ionomerzement- sowie Titanimplantaten im menschlichen Mittelohr (eine 15-Jahres-Bilanz)
Adipose Tissue Engineering - Development of Volume-Stable 3-Dimensional Constructs and Approaches Towards Effective Vascularization
Dimension-Based Design of Melt Electrowritten Scaffolds
Design and fabrication of melt electrowritten tubes using intuitive software
Tailored Melt Electrowritten Scaffolds for the Generation of Sheet‐Like Tissue Constructs from Multicellular Spheroids
Advances in Hybrid Fabrication toward Hierarchical Tissue Constructs
Charakterisierung eines 3D-Mikrotumormodells zur Untersuchung von Tumor-Stroma-Interaktionen
Tailored Melt Electrowritten Scaffolds for the Generation of Sheet-Like Tissue Constructs from Multicellular Spheroids
Melt electrowriting below the critical translation speed to fabricate crimped elastomer scaffolds with non-linear extension behaviour mimicking that of ligaments and tendons
Fibre pulsing during melt electrospinning writing
Additive manufacturing of scaffolds with sub-micron filaments via melt electrospinning writing
Branched silica precursors as additives for mineral bone cements
Vergleichende Untersuchung zum Verhalten von autogenen Ossikeln, Ionomerzement- sowie Titanimplantaten im menschlichen Mittelohr (eine 15-Jahres-Bilanz)