Multiphoton-polymerization (MPP) is a technology that enables the production of arbitrary shape polymeric structures within submicrometric resolution.
Selective laser etching (SLE) is a subtractive laser technology allowing fabrication of complex-shape 3D glass parts with micrometer precision.
Laser Nanofactory workstation allows hybrid fabrication, meaning that various processes are supported by the same equipment.
A feasibility study includes researching methods for fabricating micro-structures, fabricating a micro-structure prototype and aligning with technical requirements.
Small-scale production ensures that the developed process is effective, efficient, and capable of producing high-quality micro-structures at scale.
Exciting updates await you at the event! Discover our enhanced true 3D micromanufacturing capabilities in Selective Laser Etching (SLE) of glass and Multiphoton Polymerization (MPP) technologies, along with the introduction of a new product and advancements in our contract manufacturing services.
We kindly invite you to visit Femtika at the BiOS booth #8222 and the Photonics West booth #3222. At these FREE events, our most recent technology will be on show.
Femtika, a leading provider of femtosecond micromachining solutions, is thrilled to announce its participation in the highly anticipated LASER World of PHOTONICS 2023, scheduled to take place in Munich, Germany, from June 27 to 30, 2023.
With an unwavering commitment to meeting the evolving needs of its customers, Femtika will be showcasing its exceptional femtosecond micromachining solutions at booth B3.260/7.
We are delighted to announce that FEMTIKA has been selected as a finalist for the prestigious EPHJ Grand Prix 2023. This award highlights FEMTIKA’s dedication to innovation and the ground-breaking advancements in 3D micro-manufacturing technology. FEMTIKA invites everyone to vote and support their journey.
FEMTIKA will showcase its femtosecond laser applications at the EPHJ exhibition booth K128 in Geneva, Switzerland, from June 6 to 9.