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...structures can be fabricated inside a gel or liquid monomer by using the multiphoton polymerization technique which makes support‑free 3D printing possible. 3D Gyroid Structure Multi-photon polymerization is a suitable...

...using the multiphoton polymerization technique which makes support‑free 3D printing possible. 3D Gyroid Structure Multi-photon polymerization is a suitable technology for meta-material fabrication. Metamaterials are composites whose physical properties are...

...surfaces to be maintained on the same structures depending on the needs of the application. Applying for Industries Photonics Industrial R&D Telecommunications Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization...

...can be integrated into the glass microstructures using multiphoton polymerization (MPP). The hybrid-fabrication approach enables rapid production of channels out of fused silica via laser ablation, while multiphoton polymerization is...

...fiber tip and the lens. Applying for Industries Medical Bioscience Defence & Aerospace Industrial R&D Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which allows...

...Jewelry Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which allows 3D structuring of photopolymers at the micro- and nano-scale. Selective Laser Etching Selective laser...

...capable of entrapping submicrometer sized cells by multiphoton polymerization (MPP) technique. Applying for Industries Medical Bioscience Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which...

...glass microstructures using multiphoton polymerization (MPP). 3D Scaffold Scaffold-like structure can be produced within a resolution of up to 150 nm capable of entrapping submicrometer sized cells by multiphoton polymerization...

...Fresnel lenses and photonic crystals. Applying for Industries Photonics Industrial R&D Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which allows 3D structuring of photopolymers...

...by multi-photon polymerization is a direct laser-write technique which allows 3D structuring of photopolymers at the micro- and nano-scale. Laser Nanofactory Multi-Photon Polimerization Multiphoton-polymerization (MPP) is a technology that enables...

...MPP enables the production of polymeric structures with high resolution, such as Fresnel lenses and photonic crystals. Applying for Industries Photonics Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is...

...to 150 nm and capable of entrapping submicrometer sized cells. Applying for Industries Medical Bioscience Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which allows...

...high resolution, such as Fresnel lenses and photonic crystals. Applying for Industries Photonics Telecommunications Industrial R&D Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which...

...Microfabrication by multi-photon polymerization is a direct laser-write technique which allows 3D structuring of photopolymers at the micro- and nano-scale. Laser Nanofactory Multi-Photon Polimerization Multiphoton-polymerization (MPP) is a technology that...

...Applying for Industries Micro-robotics Industrial R&D Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which allows 3D structuring of photopolymers at the micro- and nano-scale....

The hybrid-fabrication approach enables rapid production of channels out of fused silica via laser ablation, while multiphoton polymerization is used to integrate fine-mesh 3D filters of arbitrary geometry inside the...

A hybrid-fabrication approach using femtosecond laser ablation and multiphoton polymerization is applied to produce complex lab-on-chip devices. For example, a microfluidic macromolecule separator is produced for new drug development and...

...Laser Nanofactory workstation allows hybrid fabrication, meaning that various processes are supported by the same equipment. The two of our most frequently used processes are multiphoton polymerization and selective glass...