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.
Covalent Metrology offers metrology, characterization, imaging and modeling services including Atomic Force Microscopy (AFM), SEM/EDS, Spectral Ellipsometry, UV-Vis XRD/XRR. They have experts on staff that perform advanced measurements and analysis for complex request.
Covaris, Inc. is a life science instrument company. Its proprietary instrument platform, based on patented Adaptive Focused Acoustic (AFA) technology brings unsurpassed speed and efficiency to biological and chemical sample preparation. The AFA process, based on shock wave physics, delivers controlled, precise and accurate energy to biological and chemical samples.
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.
Crystalplex develops and commercializes innovative fluorescent markers for use in basic life science research, pharmaceutical research, diagnostics and histology. The technology is based on proprietary composition-tunable nanocrystals (quantum dots).
CSEM, the Swiss Center for Electronics and Microtechnology, Inc., is a privately held research and development company active in Applied Research; Product Development; Prototype and Low-volume Production; Technology Consulting. Its main fields of activity are micro- and nanotechnologies, microelectronics, systems engineering, microrobotics, photonics, information and communication technologies.
CSInstruments is a French scientific equipment manufacturer specialized in the conception of Atomic Force Microscope and options designed for existing AFM. Its activities are focused on research, development and design of simple solution, innovative and quality around the AFM to allow researchers and industry to improve their research project.
Curiox is a bioinstrumentation company enabling the miniaturization of heterogeneous bioassay for researchers working in life sciences, drug discovery, and diagnostics. Curiox's patented miniaturization platform, DropArray, provides up to 1,000 times savings in sample and reagent consumption, and up to 10 times reduction in assay time.
One of the first companies to market a true solid state energy system using a proprietary, patent pending POWER FAB™ low temperature manufacturing process. The Cymbet™ thin-film battery system will enable new concepts in battery application for IC's and new products for handheld computer, communication, medical, sensor, and portable electronic devices.