Nanoscale additives for reinforced plastics in the automotive industry, of flexible and rigid packaging such as films, bottles, trays, and blister packs, and also of electronics plastics such as wire and cable coatings.
Using lapping, optical polishing, single point diamond machining, low stress grinding and honing, Surface Finishes provides Angstrom level tolerances on prototype or production components such as: mirrors for optical imaging and scanning, air bearings, optical disc molds, large area reference surfaces and custom gauging.
By establishing its distribution centre in Belgium, Tokyo Chemical Industry is able to meet European customers' needs more quickly with lower delivery cost. Tokyo Chemical Industry has more than a fifty-year history as a manufacturer of laboratory chemicals. It handles more than 18,000 chemicals mainly organic, which are widely used from university laboratories to corporate research facilities.
Tesla NanoCoatings Inc. is a protective coating (paint) formulating company. Tesla manufactures Teslan Carbon NanoCoating in a 2-coat system that replaces a traditional 3-coat system used extensively for corrosion protection of steel. Tesla's coating uses carbon nanotubes which self- assemble into rope structures, making them highly conductive, tough and flexible.
The technology employed by Tethis for the production of nanostructured materials - nanostructured thin films - is based on a Pulsed Microplasma Cluster Source (PMCS) that was developed and patented by three of Tethis' co-founders.
A materials science-based technology development and manufacturing company whose Capacitance Products Division is developing advanced capacitance materials such as nano-size ceramic dielectric powders.
Transfer Devices has identified a water-dissolvable, biodegradable polymer material formulation with unique chemical and physical properties that has enabling features for a range of nanofabrication applications including high resolution printing.
TriboTEX offers a clean alternative to currently available lubricating blends that improves mechanical output by utilizing a self-assembling, nano-structured coating to simulatneously reverse wear while enhancing lubrication.
XG Sciences develops and produces multifunctional materials that are based on their xGnP brand graphene nano-platelets. The company manufactures these nano-platelets through proprietary techniques that allow them to control their size and surface characteristics.