Scanning‐laser‐based microstereolithography of microfluidic chips with micron resolution
Abstract: The constant improvement of stereolithography (SL) in terms of achievable resolution and printing time has sparked high expectations that SL will enable the rapid prototyping of truly microfluidic chips with features below 100 µm. However, most commercial high-resolution stereolithography devices are based on Digital Light Processing (DLP) and thus sacrifice lateral printing size for resolution. Consequently, even 10 years after the advent of microstereolithography there is no commercialized 3D printing system that can effectively fulfill all the demands to replace soft lithography for microfluidic prototyping. In this work, for the first time, This study demonstrates that a commercial laser-based stereolithography device is capable of manufacturing microfluidic chips with embedded channels smaller than 100 µm with a footprint of 7.24 × 0.3 cm2. A chip fabricated in poly(ethylene glycol) diacrylate (PEGDA) that can readily be used for fluid mixing, is presented in this study. This research shows that the accessibility of high-resolution chips with footprints of several cm2, using laser-based stereolithography, enables the manufacturing of truly microfluidic systems with high impact on prototyping and manufacturing
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Notes
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Advanced materials technologies. - 9, 20 (2024) , 2400047, ISSN: 2365-709X
- Event
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Veröffentlichung
- (where)
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Freiburg
- (who)
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Universität
- (when)
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2024
- Creator
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Rein, Christof
Kamranikia, Keynaz
Council, Raymonde
Pezeshkpour, Pegah
Kotz-Helmer, Frederik
Rapp, Bastian E.
- DOI
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10.1002/admt.202400047
- URN
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urn:nbn:de:bsz:25-freidok-2557211
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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15.08.2025, 7:33 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Rein, Christof
- Kamranikia, Keynaz
- Council, Raymonde
- Pezeshkpour, Pegah
- Kotz-Helmer, Frederik
- Rapp, Bastian E.
- Universität
Time of origin
- 2024
Other Objects (12)
Scanning‐Laser‐Based Microstereolithography of Microfluidic Chips with Micron Resolution
Fabrication of Embedded Microfluidic Chips with Single Micron Resolution Using Two‐Photon Lithography
Fabrication of embedded microfluidic chips with single micron resolution using two‐photon lithography
Deterministic lateral displacement microfluidic chip for minicell purification
Entwicklung eines Biosensorarray-Systems auf der Basis von akustischen Oberflächenwellensensoren mit integrierter einwegtauglicher Mikrofluidik
Fused deposition modeling of microfluidic chips in polymethylmethacrylate
Fused deposition modeling of microfluidic chips in transparent polystyrene
Highly fluorinated methacrylates for optical 3D printing of microfluidic devices
Fused deposition modeling of chemically resistant microfluidic chips in polyvinylidene fluoride
Entwicklung eines Biosensorarray-Systems auf der Basis von akustischen Oberflächenwellensensoren mit integrierter einwegtauglicher Mikrofluidik
Fused Deposition Modeling of Microfluidic Chips in Transparent Polystyrene
A Polystyrene Photoresin for Direct Lithography of Microfluidic Chips
Scanning‐Laser‐Based Microstereolithography of Microfluidic Chips with Micron Resolution
Fabrication of Embedded Microfluidic Chips with Single Micron Resolution Using Two‐Photon Lithography
Fabrication of embedded microfluidic chips with single micron resolution using two‐photon lithography
Deterministic lateral displacement microfluidic chip for minicell purification
Entwicklung eines Biosensorarray-Systems auf der Basis von akustischen Oberflächenwellensensoren mit integrierter einwegtauglicher Mikrofluidik
Fused deposition modeling of microfluidic chips in polymethylmethacrylate
Fused deposition modeling of microfluidic chips in transparent polystyrene
Highly fluorinated methacrylates for optical 3D printing of microfluidic devices
Fused deposition modeling of chemically resistant microfluidic chips in polyvinylidene fluoride
Entwicklung eines Biosensorarray-Systems auf der Basis von akustischen Oberflächenwellensensoren mit integrierter einwegtauglicher Mikrofluidik
Fused Deposition Modeling of Microfluidic Chips in Transparent Polystyrene
A Polystyrene Photoresin for Direct Lithography of Microfluidic Chips
Scanning‐Laser‐Based Microstereolithography of Microfluidic Chips with Micron Resolution
Fabrication of Embedded Microfluidic Chips with Single Micron Resolution Using Two‐Photon Lithography
Fabrication of embedded microfluidic chips with single micron resolution using two‐photon lithography
Deterministic lateral displacement microfluidic chip for minicell purification
Entwicklung eines Biosensorarray-Systems auf der Basis von akustischen Oberflächenwellensensoren mit integrierter einwegtauglicher Mikrofluidik
Fused deposition modeling of microfluidic chips in polymethylmethacrylate
Fused deposition modeling of microfluidic chips in transparent polystyrene
Highly fluorinated methacrylates for optical 3D printing of microfluidic devices
Fused deposition modeling of chemically resistant microfluidic chips in polyvinylidene fluoride
Entwicklung eines Biosensorarray-Systems auf der Basis von akustischen Oberflächenwellensensoren mit integrierter einwegtauglicher Mikrofluidik
Fused Deposition Modeling of Microfluidic Chips in Transparent Polystyrene