Search results for polymerization

...wettability to create hydrophobic or hydrophilic surfaces with applications ranging from medical tool functionalization to fluid separation and friction manipulation. Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a...

...polymeric structures with high resolution, such as Fresnel lenses and photonic crystals. Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which allows 3D structuring of...

...can be integrated into the glass microstructures using multiphoton polymerization (MPP). This incorporation of techniques demonstrates the capability of combining mechanical deformable devices made of silica with an integrated polymer...

The multiphoton polymerization technique with hybrid polymers in combination with pyrolysis enables the removal of the organic part of the polymer and produces ceramic structures. Structure shrinkage during pyrolysis is...

...gold. 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. Other Microfabrications Femtosecond lasers are...

...crystals. 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. Laser Nanofactory Multi-Photon Polimerization Multiphoton-polymerization...

...the selective laser etching technique (SLE). Polymeric filters are integrated inside the prepared microfluidic system by using multi-photon polymerization (MPP). The channels in the glass along with polymeric micropillars form...

...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 etching, however...

...and 3D laser lithography. MPP enables the production of polymeric structures with high resolution, such as Fresnel lenses and photonic crystals. Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is...

...leaving debris. 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. Other Microfabrications Femtosecond lasers...

...assembly-free components. 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...

...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. Laser Nanofactory Multi-Photon...

...Industries Products Application fields Sensors Multi-photon polymerization (MPP) enables the production of precise and strong microlenses and microneedles for visualization, filtering, and drug delivery. MPP can also be combined with...

...with a low surface roughness of ~200 nm RMS. Applying for Industries Medical Bioscience Semicon Employed Processes Multi-Photon Polymerization Microfabrication by multi-photon polymerization is a direct laser-write technique which allows...

...processes for the direct creation of functions (electronic, fluidic, optic) directly on a substrate, with a RESOLUTION down to 300 nm, by combining multi-material addition (Two-Photon Polymerization, Atomic Layer 3D...

...optical fiber. Additionally, multiphoton polymerization can be used for easy assembly free fabrication of multi-component micro-optical elements on tips of optical fibers allowing to forgo currently used complicated gluing-based multi-step...

FEMTIKA is a leading provider of advanced laser technology solutions in multiphoton polymerization and selective laser etching. Our cutting-edge technology allows for precise and efficient processing in a wide range...

...two of our most frequently used processes are multiphoton polymerization and selective glass etching, however that is far from all! Contract Manufacturing Feasibility Studies A feasibility study is composed of...

...are supported by the same equipment. The two of our most frequently used processes are multiphoton polymerization and selective glass etching, however that is far from all! Contract Manufacturing Feasibility...

...same equipment. The two of our most frequently used processes are multiphoton polymerization and selective glass etching, however that is far from all! Contract Manufacturing Feasibility Studies A feasibility study...