Nanotechnology Research – Laboratories

 

(Listed alphabetically)

 
A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | All
 

Showing results 1 - 10 of 10 for non-university labs starting with A:

 
Acreo, a contract R&D lab, deals with several aspects of optical components and systems for various applications. The company develops and manufactures new components or materials with new properties based on semiconductor structures in the nanometer scale. Examples are new types of light sources, detectors or modulators.
Theoretical and experimental research of new materials, mainly focused to nanostructures.
The scientists at ARCNL conduct exciting fundamental physics at the highest possible level with a relevance to key technologies in nanolithography. They wish to contribute to the production of ever smarter and smaller electronics, while at the same time pushing the boundaries of our fundamental insight into the workings of nature.
Invests in basic research efforts for the Air Force in relevant scientific areas.
The AFRL ML develops materials, processes, and advanced manufacturing technologies for aircraft, spacecraft, missiles, rockets, and ground-based systems and their structural, electronic and optical components.
The CNT-Application Research Center supports to resolve a wide range of issues that companies face. The Center aims to accelerate the practical application of carbon nanotubes and contribute to the creation of carbon nanotube industry originate in Japan.
The CNM's mission includes supporting basic research and the development of advanced instrumentation that will help generate new scientific insights and create new materials with novel properties.
The research facility of the US Army.
The Australian Centre for NanoMedicine combines Medicine, Science and Engineering to deliver therapeutic solutions to research problems in medicine. Through a commitment to research, education, knowledge transfer and commercialisation, ACN is dedicated to the prevention, diagnostics and curing of diseases.
Established under the National Collaborative Research Infrastructure Strategy, the ANFF links 8 university-based nodes to provide researchers and industry with access to state-of-the-art fabrication facilities. The capability provided by ANFF enables users to process hard materials (metals, composites and ceramics) and soft materials (polymers and polymer-biological moieties) and transform these into structures that have application in sensors, medical devices, nanophotonics and nanoelectronics.