HAVE YOU HEARD OF 3D MICROPRINTING IN GLASS?
Glass has countless advantages that make it a highly suitable choice for 3D microdevices. Some of these advantages include optical transparency, high flexural strength, mechanical and thermal stability, low permeability, biocompatibility, and resistance to corrosion, abrasion, and scratches. These properties, combined with our free-form capabilities, provide a unique performance advantage to our customers, who are active in cutting edge industries with a broad range of demanding applications.
CHALLENGES AND SOLUTION
The FEMTOPRINT® process offers real 3D capabilities, allowing integration of optical, mechanical, and fluidic functionalities in a single glass monolith without the need for post-processing or additional assembly. This out-of-cleanroom process, combined with our reliable technology platform, is a unique game-changer in major innovation-driven industries, providing a full process solution from rapid prototyping to industrial volume fabrication.
FEMTOPRINT® is the sole 3D microfabrication platform capable of material structuring using arbitrary patterns to produce challenging, monolithic 3D shapes in glass with high precision, sub-micron resolution, and with an additional polishing step, optical surface quality.
FEMTOprint ISO 13485:2016 compliant Quality Management System (QMS) has been certified by TÜV Rheinland early in September 2017. The implementation of this comprehensive quality management system for the design and manufacture of medical devices is a strategic choice to ensure compliance with regulatory and legal requirements, as well as to meet the expectations of our valuable Customers.
CERTIFICATE ISO 13485:2016
FEMTOprint embracing excellence, our ISO 9001:2015 certification stands as a testament to our unwavering dedication to top-notch quality and customer satisfaction.
CERTIFICATE ISO 9001:2015
WHERE TO MEET WITH US
MicroTAS, Poland, 15-19 October 2023
SPIE Photonics West and Bios, USA, from 27 Jan 2024
Md&M West, USA, 6-8 Feb 2024
EPHJ, Switzerland, 11-14 June 2024