Simple Setup. Big Impact.
The H-Series 3D printer is a great tool for researchers that are new to 3D printing or microfluidics. It offers reliable precision and smooth surfaces, making it easy to create and prototype fluidic devices.
With our specialized 3D Materials, researchers worldwide can quickly create, test, and improve their designs. Whether you are developing new applications or optimizing existing ones, the H-Series delivers a simple, efficient solution to turn your ideas into reality.
Technology That Empowers Your Workflow
Variable X:Y Resolution
The H-Series comes with the option of 30µm to 41.5µm.
Multiple Wavelengths
The H-Series come with the choice of 405nm wavelength.
Variable Build Areas
The H-Series comes with build area ranging from 57x32x120mm to 80x45x120mm
Open Source
Being an Open Materials System, the H-Series can print using 3rd party photopolymer resins.
Build Area
57 x 32 x 120mm
Native XY Pixel
30 µm
Dynamic Pixel
N/A
Wavelength
405nm
Z-Layer Resolution
5-500µm
Printer Size & Weight
50 x 57 x 59 cm / 42.5kg
Projector
2 Million Pixels
Questions? Let's Talk.
Schedule a one-on-one with our 3D Printing Specialists to learn why our 3D printers and 3D Materials for Microfluidics are the missing parts of your research.
Resin Engineered for Our 3D Printers
Pair the H-Series with our specialized 3D materials for real microfluidic applications. Researchers can easily design, print, and customize complex microfluidic devices with exceptional resolution and smooth surface quality.
Master Mold for PDMS
Print master molds, with features as fine as 50µm, in under an hour. An ideal solution for casting PDMS devices without the need for a clean room.
Encapsulated Devices
Print clear microfluidics devices with encapsulated channels, as small as 80µm (XY), with excellent transparency allowing for easy evaluations.
Cell-Viable Devices
Print microfluidic devices with over 90% cell viability across a broad spectrum of cell lines, giving researchers endless experimental possibilities.
Empower Research Worldwide
We support over 200 Universities, Research Institutes, and laboratories.
2023
3D‑Printed Microinjection Needle Arrays via a Hybrid DLP‑Direct Laser Writing Strategy
2023
Skin‑interfaced microfluidic systems with spatially engineered 3D fluidics for sweat capture and analysis
Are These Challenges Holding Back Your Research?
Not sure which 3D printer is right for your research?
View the differences in our 3D printers in one convenient chart -future-proof and avoid retrofits.
Standard clear materials giving you hazy prints?
Our Clear Microfluidic Resin is specifically made for microfluidics, offering high resolution, low shrinkage, and optimal transparency.