We develop and manufacture advanced 3D printing and fiber-forming systems for polymer materials, enabling precise and reproducible deposition of micro- and nanofibers with defined properties. These technologies are applicable in research and biomedical fields, including tissue engineering and regenerative medicine.

Modular electrospinning devices for research purposes and small-scale production

A cost-effective, modular electrospinning system designed for the deposition of nanofibers onto static and rotating collectors under precisely controlled and reproducible conditions. The system allows regulation of a wide range of process parameters, including temperature, humidity, ambient atmosphere composition, and other key factors influencing fiber morphology.

Planned market launch: Q4 2025.

3Advanced 3D bioprinting systems combining extrusion printing with centrifugal and electrostatic spinning, enabling the fabrication of fibrous structures with defined architecture and multi-material composition

Development is carried out in collaboration with research institutions and partner universities in the Czech Republic, Germany, and the United States.

Development of innovative fibrous scaffolds and biomaterials for tissue engineering and regenerative medicine applications

The projects are carried out in collaboration with experts in polymer processing, process automation, cellular biology, and clinical research. The focus lies on scaffolds with defined structure, biofunctionality, and controlled biodegradability.

Market launch is planned for the end of 2027.

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