A spin-out of NC State's Technology Entrepreneurship and Commercialization program, Xanofi specializes in producing custom, low-cost, functional nanofibers for applications in medicine, energy, and performance textiles. We are currently seeking co-development projects with customers seeking a nanofiber solution for their products.
Digital microfluidics is a lab-on-a-chip approach based on direct, programmable micromanipulation of nanoliter volume droplets using electrical fields. Digital microfluidics enables complex, multi-step liquid handling protocols to be flexibly, scalably, and cost effectively implemented.
An early stage therapeutic drug company, NanoVector Inc. is commercializing a patent pending nanoparticle drug delivery system developed at North Carolina State University. The NanoVector nanoparticle is a plant virus. Central to our technology, this virus, which has evolved over millions of years, has several inherent characteristics essential for a successful nanoparticle delivery system and superior to any designed and engineered by humans.
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.
Flow Sciences, Inc. designs and manufactures safety containment solutions for Research and Development Laboratories, Pilot Facilities, Automation Equipment and Robotics, Manufacturing and Production Plants; including nanomaterial containment enclosures.
Industrial Hard Carbon thin film coatings are characterized by extreme hardness, lubricity, high wear resistance, high corrosion resistance and a number of other useful qualities. The films are deposited by a proprietary plasma-assisted chemical vapor deposition process. Far different from the diamond-like and carbide thin films familiar to many in the coating industry, IHC films are created from layers of nano-crystalline diamond and nano-crystalline silicon carbide in an amorphous matrix of both elements.
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.
PureLux is a spin-out from the Center for Nanotechnology and Molecular Materials at Wake Forest University focused on commercializing next generation light sources that are 10 times more efficient than incandescents and 3 times more efficient than fluorescents.
The company's SensorMetric™ software packages help Sensory systems meet a breadth and depth of application challenges to include color measurement, nanometric measurement, primer measurement and L/O coating thickness measurement on a wide variety of metallic and non-metallic substrates.
SLAT (or Superlattice Power Inc.) pioneers Superlattice Cathode Material for the use in Lithium Ion Rechargeable. It has successfully introduced Superlattice nano and submicron materials from laboratory to industrial scale.
XinRay Systems LLC is a joint venture between Siemens Medical Solutions and Xintek. The company develops and manufactures distributed x-ray sources for a broad range of applications including diagnostic medical imaging, homeland security, and industrial inspection. Its proprietary nanomaterial based field emission electron sources have superior emission properties including high emission current and long term stability.