Applied X-ray Optics and High Precision Deposition - develops and applies various high precision deposition techniques for the production of nanometer single and multilayers showing sub-nanometer precision.
Bilcare has developed a unique security technology called nonClonable. The technology innovatively exploits the intrinsic nature of nano and micro-structured composites together with their magnetic and optical properties to provide a foolproof security system.
Evolved from more than 15 years research at Sydney's Macquarie University, BluGlass has invented a novel process using Remote Plasma Chemical Vapour Deposition (RPCVD) to grow semiconductor materials such as gallium nitride (GaN), crucial to the production of high efficiency devices including next generation lighting technology Light Emitting Diodes (LEDs) at a fraction of the current cost.
Buckeye Composites is a new division of NanoTechLabs (NTL), the largest producer of multi-walled carbon nanotubes in the United States. With headquarters, research and manufacturing facilities in Yadkinville, North Carolina, NanoTechLabs has extensive commercial experience in materials development, focusing on the incorporation of nanomaterials into various materials systems and products.
Busek specializes in electric space propulsion and materials processing. Materials activities include deposition of coatings by ion beam deposition, sputtering, and by other methods. They have on-going development programs investigating DLC coating, the growth of carbon nanotubes, and other materials.
Cambridge Nanotherm Ltd, was established in 2010 to commercialise proprietary nano-ceramic technology for use in the electronic industry. The technology has been developed by internationally renowned scientists who are co-founders of the company.
Cavitation Technologies, Inc. (CTi) is an innovative leader in processing liquids, fluidic mixtures, emulsions and suspended solids. The Company has commercialized its patent-pending CTi Nano Neutralization process, offering the refiners of edible oils and fats significant yield improvements, substantial cost savings and environmental benefits. As an add-on to existing neutralization systems, the Company's patented Nano Reactor allows refiners to significantly reduce the processing costs, increase the yield and perfect the oil's quality.
CemeCon is one of the most successful companies globally specializing in state-of-the-art coating solutions for cutting tools and components. CemeCon is offering a comprehensive variety of services at highest level.
Ceres uses its Nanotrap technology - a spherical, carbon-based nanoparticle designed to collect, concentrate, isolate and preserve the smallest and scarcest of molecules found in body fluids - to pursue a range of applications in the diagnosis and treatment of diseases, as well as uses in sports screening, homeland security and environmental remediation.
In its mission to create the next generation of photonic solutions, Chiral Photonics continues to advance the discovery and to develop ever more technologies related to chiral photophysics and glass microfabrication.
CombiMatrix's microarray technology allows for the parallel synthesis of large numbers of nanostructured materials. These materials can then be tested using the same chip-based technology. These activities are focused on materials that could be useful for applications in the fields of electronics, energy conversion, energy storage, catalysis, and others.
The company's experience in sub-micron and nano tool machine design, early stage tool development, prototyping and nanotechnology equipment design along with the requisite high level of Engineering Analysis provides the complete skill set for partnering with many clients who are focused on core technologies and intellectual property for nanotechnology tools.
Correlated Magnetics is a revolutionary scientific breakthrough that enables magnets to be 'programmed' such that they can produce never-before-seen behaviors far beyond the simple 'attract' and 'repel' of conventional single-axis dipole magnets. This new technology, which can be scaled down to the nanoscale, can be used both to improve existing products currently employing magnets and to empower innovative new products in applications where conventional magnets were never considered practical.