Add to ORKGIn this letter, we show the combination of multiphoton polymerization and optical trap assisted nanopatterning (OTAN) for the additive manufacturing of structures with nanometer resolution. User-defined patterns of polymer nanostructures are deposited on a glass substrate by a 3.5 μm polystyrene sphere focusing IR femtosecond laser pulses, showing minimum feature sizes of λ/10. Feature size depends on the applied laser fluence and the bead surface spacing. A finite element model describes the intensity enhancement in the microbead focus. The results presented suggest that OTAN in combination with multiphoton processing is a viable technique for additive nanomanufacturing with sub-diffraction-limited resolution
Integrated passive and active devices are the key components in current and future information techn...
Optically resonant metallic bowtie nanoantennas are utilized as fabrication tools for the first time...
International audienceThis study fabricated periodic 3D nanostructures by using a periodic voxe...
Abstract The need to generate sub 100 nm features is of interest for a variety of applications inclu...
AbstractThe need to generate sub 100nm features is of interest for a variety of applications includi...
Multi-Photon Polymerization (MPP) is a powerful technique to fabricate complex micro-scale 3D struct...
Metamaterials are manmade structures with unique properties that cannot be found in nature. The meta...
Lithography, universally considered to be the backbone of nanotechnology, has been consistently unde...
The appearance of the ultrashort laser pulses opens up new possibilities in the materials processing...
Utilization of focused laser beam for photo-polymerization represents an elegant and fast method how...
The fabrication of sub-100 nm feature sizes in large-scale three-dimensional (3D) geometries by two-...
Two-photon polymerization using femtosecond laser pulses at a wavelength of 515 nm is used for three...
We present a method to develop single-wall carbon nanotube (SWCNT)/polymer composites into arbitrar...
We present new methods to produce polymerized nanotips via two-photon photopolymerization. By gradua...
Compared with conventional microfabrication techniques, two-photon polymerization has attracted sign...
Integrated passive and active devices are the key components in current and future information techn...
Optically resonant metallic bowtie nanoantennas are utilized as fabrication tools for the first time...
International audienceThis study fabricated periodic 3D nanostructures by using a periodic voxe...
Abstract The need to generate sub 100 nm features is of interest for a variety of applications inclu...
AbstractThe need to generate sub 100nm features is of interest for a variety of applications includi...
Multi-Photon Polymerization (MPP) is a powerful technique to fabricate complex micro-scale 3D struct...
Metamaterials are manmade structures with unique properties that cannot be found in nature. The meta...
Lithography, universally considered to be the backbone of nanotechnology, has been consistently unde...
The appearance of the ultrashort laser pulses opens up new possibilities in the materials processing...
Utilization of focused laser beam for photo-polymerization represents an elegant and fast method how...
The fabrication of sub-100 nm feature sizes in large-scale three-dimensional (3D) geometries by two-...
Two-photon polymerization using femtosecond laser pulses at a wavelength of 515 nm is used for three...
We present a method to develop single-wall carbon nanotube (SWCNT)/polymer composites into arbitrar...
We present new methods to produce polymerized nanotips via two-photon photopolymerization. By gradua...
Compared with conventional microfabrication techniques, two-photon polymerization has attracted sign...
Integrated passive and active devices are the key components in current and future information techn...
Optically resonant metallic bowtie nanoantennas are utilized as fabrication tools for the first time...
International audienceThis study fabricated periodic 3D nanostructures by using a periodic voxe...