3D Printer Tackles Microfluidic Prototyping

3D Printer Tackles Microfluidic Prototyping

At the Pacific Design and style & Producing Show, Dolomite unveils its commercially available Fluidic Factory 3D printer for sealed microfluidic products. The printer utilizes a cyclic olefin copolymer (COC) from TOPAS Sophisticated Polymers to make a variety of microfluidic demonstration pieces. It is managing continuously at TOPAS’ Booth #662.

The Fluidic Manufacturing facility ehnables speedy prototyping of fluidically-sealed units these kinds of as chips, sensor cartridges, fluid manifolds, valves, connectors, and health-related gadgets. It can be used with TOPAS 8007S-04, a standard injection-molding quality filament for significant-performance health care and optical apps. TOPAS COC is regarded as the industry conventional in microfluidics and diagnostics simply because of its clarity, purity, chemical resistance, and UV transparency, according to Timothy Kneale, president of TOPAS Superior Polymers.
As the first commercially offered 3D printer for fluidically-sealed units, it presents rapid, simple, and trusted printing of microfluidic equipment at an affordable expense. The Fluidic Manufacturing unit attributes intelligent software program and modern hardware which makes sure responsible sealing of fluidic paths, letting the generation of specific channel geometries and different features not feasible using etching, embossing, molding, or machining procedures.
Consumers can pick out a design from the collection in the Fluidic Factory’s Design and style Library, or produce and print their very own one of a kind machine making use of most CAD software. With this comprehensive style overall flexibility, the Fluidic Manufacturing unit is suitable for a large vary of applications, such as organ-on-a-chip, position-of-care diagnostics, drug development, schooling, chemical synthesis, and analytical and biomedical assays.
With 92% clarity and mold element of TOPAS COC, nicely counts are maximized, circulation channels can be incorporated, and analyses are optimized. Owing to its extremely-superior purity, TOPAS COC has lessen leachables and extractables than competing resources, resulting in the most trusted and repeatable success. The inert nature of the material helps prevent interference with reactions and analyses. Other important characteristics involve the finest readily available UV transparency of any plastic and very low autofluorescence.

“We gave watchful thing to consider to a selection of resources for our breakthrough 3D fluidics printer and picked TOPAS COC due to the unique attributes and positive aspects it provides around other polymers, building it great for microfluidics in biology and professional medical environments,” stated Dr. Omar Jina, Dolomite’s Chief Professional Officer. “It is the polymer most often asked for by biologists and has received acceptance in the microfluidics field.”

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