A leading source of image analysis solutions for quantitative microscopy, Clemex Technologies Inc. provides image analysis systems and image analysis software for quality control and research laboratories. Major corporations around the world in manufacturing, pharmaceuticals, aerospace, automotive, and research use Clemex products.
CODIXX is a manufacturer of optical polarizers for the infrared, the visible and UV spectral range. The company has developed its colorPol technology for doping of sodium silicate glass with prolate silver nanoparticles.
The company's materials expertise is in the conversion of nanoscale materials into enhanced fluids, phase change materials, and polymeric composites into respectively nanofluids, nano-PCMs and nanocomposites.
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.
Confovis confocal measurement systems provide fast and non-contact analysis of roughness, microgeometry, topology and more down to the nanometre range for quality control and process optimization in industry and research.
Contipro's 4SPIN nanofibers forming device is the first of a series of nanofibre manufacturing devices which Contipro plans to market. Primarily designed for laboratory use, it can also cope with low-volume manufacture and meets the requirements for installation in cleanrooms.
Contour Energy Systems is a leading innovator of advanced battery technologies leveraging materials science breakthroughs and patented manufacturing processes for the development of next-generation primary and rechargeable battery systems.
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.
Develops and provides systems, processes, materials, equipment as well as wear and tear parts for PVD & CVD thin-film and sputter applications. The thickness of these coatings is in the range of a few nanometers, depending on the application.
Coventor, Inc. is a leading worldwide provider of 3D analysis and design automation software for the development of micro- and nano-scale devices and systems. These include microelectromechanical systems (MEMS) such as inertial sensors, inkjet print heads and displays. In addition, semiconductor manufacturers, fabless and labless companies developing 180nm to sub 32nm devices and processes also use Coventor's 3D software.
The company manufactures state-of-the-art instruments using optical and electrooptical technology for scientific and industrial applications. Key target areas are: fluorescence microscopy and spectroscopy.
CRAIC Technologies™ is a developer of UV-visible-NIR range scientific instruments for microanalysis. These include the QDI series UV-visible-NIR microspectrophotometer instruments designed to non-destructively measure the optical properties of microscopic samples. CRAIC's UVM series microscopes cover the UV, visible and NIR range and hel analyze with sub-micron resolutions far beyond the visible range.
CrayNano was spun-off from the Norwegian University of Science and Technology (NTNU) to commercialize a new technology to grow gallium arsenide (GaAs) nanowires on graphene using molecular beam epitaxy. The new hybrid electrode material offers excellent optoelectronic properties.