Nano-imprint lithography has made solid progress over the years, but for the most part, the technology remains stuck in its R&D niche. While nano-imprint has not cracked mainstream production in ...

Nano-imprint tools sell for as cheap as $100,000, compared to the staggering $18-to-$25 million price tags for the latest and greatest 193-nm scanners. During SPIE, high-flying Molecular Imprints Inc.

Nano-imprinting lithography is used as an alternative to ultraviolet (EUV) and deep ultraviolet (DUV) photolithography technology, which is used in the most advanced semiconductor device fabrication.

Nano imprinting with Bulk Metallic Glass enables to directly replicate smallest features with high aspect ratio. Our current record is 13 nm and 50 for feature diamater and aspect ratio, respectively.

Nano-imprint lithography (NIL), a polymer stamping process, looms as the next revolutionary way to get past the limitations of conventional photolithography. Although this technology ...

Hitachi Global Storage Technology, owned by Western Digital, have made a claim that they have developed self-assembling molecules and nano-imprinting to create more dense magnetic storage drives.

Posted: Jan 24, 2017 Imprinting nano patterns on the inside and outside of polymer fibers (Nanowerk News) Researchers at EPFL’s Laboratory of Photonic Materials and Fibre Devices, which is run by ...

Nano-imprint lithography is also being investigated for its potential to enhance the manufacturing processes of other rapidly emerging and high-growth nanoscale applications such as micro ...

Faster, cheaper route to solar cells... and more 03 Jan 2007 VTT Technical Research Centre of Finland and Suss MicroTec have developed a nano-imprinting stepper that paves the way for improved ...

It’s unclear if Toshiba will put nano-imprint tools into its production fabs at 22-nm and beyond. At this node, Toshiba is also exploring other lithography technologies, such as 193-nm immersion and ...

(Nanowerk News) Korean researchers are improving the fabrication of transistor-based biosensors by using silicon nanowires on their surface. The team, led by Won-Ju Cho of Kwangwoon University in ...