The company specializes in the development, production, distribution and servicing of enabling solutions for the discovery of pharmaceutical substances, as well as for genomics, proteomics, and diagnostics. Nanotechnology applications include a nanopipetting system.
Offers a complete set of sample preparation tools for electron microscopy, developed for the field of nanotechnology, materials and semiconductors science, from precise sectioning and polishing through effective ion milling to high-quality end-polishing.
Ted Pella, Inc ia a leading manufacturer of consumables, supplies, tools and specimen preparation equipment for all disciplines of microscopy and nanotechnology. Specialized in specimen mounts and holders for SEM, FIB, support films and grids for TEM, calibrations standards and sample storage.
Teer Coatings Ltd. is a specialist PVD (Physical Vapour Deposition) coating company, consisting of three main parts: the design and manufacture of a wide range of coating deposition equipment, test equipment and magnetrons; commercial coating services; and R&D - both contract and in house.
Tellurex delivers high performance thermoelectric products to both large and small volume customers. The company performs primary research in chemical metallurgy in collaboration with major universities.
Manufactures micro and nano structured products for many different high-tech applications such as display technology, micro-optics, micro-electronics/semiconductors, biotechnology, fluid technology and micro actuator technology.
Tempo is focused on significantly improving the efficacy and safety profile of existing and new drugs employing advances in nanotechnology. The Company utilizes its proprietary Nanocell™ technology to develop multi-compartmental, nanoparticle-based therapeutics in which two drugs with varied release rates are packaged within a single nanoparticle.
TenasiTech is commercializing Adaptive Polyol - a new way of incorporating patented, high functioning nanoscale additives in polymer precursors for maximum flexibility, consistency and performance. In addition we are supplying the additives themselves for incorporation in finished polymers.
Defects such as pinholes, cracks and grain boundaries are common in thin oxide barrier films when fabricated onto plastic substrates. These defects cause a 'pore effect', where oxygen and water molecules are able to seep through and penetrate the plastic barrier. TBF has taken an innovative approach to resolve the ?pore effect? by literally plugging the defects in the barrier oxide films using nanoparticles.
CERATOM® technology developed by TERMIONA is a brand new technology for thermal electricity markets. This technology determines the primary specialization of the company, i.e. manufacturing new generation of thermoelectric systems with nanostructured composite heat exchangers, the various thermal electricity devices based thereon inclusive.
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.
TETRA develops, manufactures and distributes systems and components of sensors, robotics and automation. Our product portfolio ranges from highly specialized test and production systems for micro and nano technology to lightweight robotic systems for automation of sensitive production and service processes.
Tetronics Tetronics is one of the leading manufacturers and suppliers of High Temperature DC Plasma arc technology. The company has been active in the field of nanopowder production for the last 20 years and has a wealth of knowledge in this exciting growth area. The high temperatures and steep thermal gradients present in the plasma hot zone, combined with the inherently clean, controllable nature of plasma makes it ideal for the production of a vast range of metallic, composite and ceramic nanopowders.