An industrial high-tech company focusing on machine and systems engineering. Oerlikon stands for leading industrial solutions and cutting-edge technology in textile production, thin film coating, propulsion, precision and vacuum technology.
OmegaGenesis, Inc. is a biotechnology company that discovers and produces nano-scale materials that work on the cellular and sub-cellular level to promote or inhibit angiogenesis, the growth of new blood vessels.
Designer and manufacturer of micro and nano miniature interconnect products, featuring COTS, Standards and Custom connectors for industries such as Military, Aerospace, Defense, Medical and other technology oriented OEMs
Provides instrumentation and consulting for measurement of surface roughness, waviness and shape; layer thickness and optical properties ranging from the sub-nanometer to the cm scales along with surface modification and laser lithography.
A manufacturer of nanocoatings, one of the most immediate aims of Omniyo is to make the environment a safer and healthier place through the propagation of breakthrough healthcare technologies that transform surfaces to become 'self-sanitizing' in which deleterious bacteria and viruses are eliminated upon contact so as to reduce the risk of infections and promote greater hygiene throughout the world.
OnMaterials offers innovative materials solutions for the environmental remediation marketplace. OnMaterials' Z-Loy™ products are engineered zero valent metal powder suspensions designed for injectablity as nano- and/or micro-scale powders.
The company is focused on continuing to develop the POET platform technology through its U.S. based affiliate, ODIS Inc. (an acronym for 'OPEL Defense Integrated Systems'). POET (Planar Opto Electronic Technology) enables monolithic fabrication of integrated circuit gallium arsenide devices containing both electronic and optical elements on a single wafer.
The company manufactures nano-architectures for a variety of applications. Their core activities are related to developing enhanced photonic devices for chemical and biomolecular sensing. Other major applications include solar energy harvesting, regenerative tissue and micro-fluidics. One of their most highly developed technologies, the SERS Sensor may be used for pharmaceutical and environmental pollutant detection. The working principal is based on Raman spectroscopy. It is the first Raman based molecular sensor that relies on a traditionally inactive plasmonic materials. Control of stability, corrosion resistance, biocompatibility etc. are now much more accessible to R&D labs and process engineers.