Nascentric has developed unique current-based technologies to address nanometer effects, and owns a diverse, valuable patent portfolio in this and many other unique verification and analysis techniques.
Natcore Technology is the exclusive licensee, from Rice University, of a thin-film growth technology enabling room-temperature growth of various silicon oxides on silicon wafers in a liquid phase deposition (LPD) process. Although the implications of this discovery for semiconductors and fiber optics are significant and wide-ranging, the technology has immediate and compelling applications in the solar sector.
A nanomaterials company developing proprietary technologies and processes to provide novel properties for a wide range of applications that include industrial polymers, plastics, composites and additives.
nCoat exploits nano-level processes and nano-formulated materials to develop coatings that produce revolutionary performance in heat management, corrosion resistance, abrasion resistance, friction reduction, superior bond strength and improved appearance.
Offers a complete line of patented filter modules for biopharm, nutraceutical and dairy processing. NCSRT's flat sheet filter modules are available in a wide range of membrane materials and pore sizes to accommodate ultra filtration, microfiltration, nanofiltration, and reverse osmosis processes.
Delivers enabling technology for realizing the potential of novel process chemistry through the use of process intensification. Process Intensification is created when mixing occurs on a nano- or micro-scale level enhanced by tightly controlled shear conditions using thin films or micro-flows.
Metrology and failure analysis tools. The company serves nanotechnology R&D markets, semiconductor labs for failure analysis and electrical characterization, and wafer labs for process control metrology.
Invents, manufactures and sells miniature ceramic motors and positioning systems using patented piezoelectric designs. They enable researchers to create more precise laboratory automation and nanotechnology tools.
Nexeon has patented a unique way of structuring silicon so that it delivers extended cycle life and significantly increases battery capacity. In contrast to carbon, Nexeon's silicon anode materials have a much higher capacity for lithium and as a result are capable of almost ten times the gravimetre capacity per gram (mAh/g).
Nikon has developed a technology to form a coating with very low refractive index even in the vacuum UV region, and greatly improved the angular performance of antireflection coating. This ultra-low refractive index coating is called Nanoparticle Coating because the size of the particles that compose this coating ranges from a few nanometers to just more than 10 nanometers.