A 3D printer capable of smoothly and rapidly creating microfluidic channels, equipped with precision.
Achieving high-precision, high-speed, and highly flexible microchannel devices—accelerating innovation in the medical and research fields with an innovative light-based 3D printer.
Our 3D printer brings evolution to the next-generation manufacturing of microfluidic devices. By adopting the innovative "PµSL" technology, it enables the easy production of ultra-fine microfluidic devices ideal for applications such as cell culture, drug development, and drug delivery. Complex structures can also be easily realized, contributing to the introduction of active ingredients into cells with three-dimensional designs. It is also utilized in the development of medical devices, bringing us one step closer to achieving more innovative medical solutions. Explore the new possibilities of microfluidic devices using our 3D printer!
basic information
3D printers have elements such as resolution, precision, accuracy, and printing speed, all of which affect the quality of the finished product. To manufacture microfluidic devices, a high-performance 3D printer with a resolution of around 10μm is required, and a stereolithography (SLA) 3D printer is optimal. There are two technologies in stereolithography: DLP (Digital Light Processing) and SLA (Stereolithography Apparatus). DLP has a faster printing speed, while SLA can handle larger prints. Our PµSL technology incorporates the best aspects of both DLP and SLA, resulting in a product that offers larger print sizes than DLP. It can rapidly create microchannels with a minimum diameter of 10μm. The quality of the printed object from a 3D printer is determined by its resolution, precision, and accuracy.
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Applications/Examples of results
- Creation of a microfluidic device for the fusion of uniform diameter liposomes and cells by the University of Tokyo's Institute of Industrial Science - Contract manufacturing of microfluidic devices using PDMS resin - Realization of a mass production line for microfluidic devices using glass molding technology by Panasonic - Realization of a mass production line for high-precision, low-cost microfluidic devices using "PµSL" technology - High-speed fabrication of microchannels with a minimum diameter of 10μm using a light-based 3D printer - Integrated molding of a valve for a gene sequencer with a minimum internal diameter of 0.2mm using a light-based 3D printer - Integrated molding of a heat exchanger with complex internal channels for heat exchange using a light-based 3D printer
