HyperSolar is developing a breakthrough technology to produce renewable hydrogen and natural gas using sunlight, water and carbon dioxide. These renewable gases can be used as direct replacements for traditional hydrogen and natural gas to power the world, without drilling or fracking, while mitigating CO2 emissions.
The company specializes in nanotechnologies and is concentrated in three main areas: scientific research, construction and production of nanoparticles condition detectors. Their products are intended for production process controls, scientific and technological researches.
The company's focus is on the rapidly emerging field of nanobiotechnology with an emphasis on the early detection and localization of cancer and other human diseases. Their technologies also hold the promise of providing image-guided therapy for the treatment of these diseases, as well as providing new methods for therapeutic intervention.
IME Technologies is an electrospinning technology company with a leading position in the market for high-end electrospinning equipment. IME has set an ambitious course to become the leading partner for the medical device industry when it comes to developing medical implants for regenerative medicine applications.
Ultrafast and short-pulsed fiber laser technology for commercial and research applications, enabling a multitude of new applications in microscopy, high-speed testing, metrology, medical imaging, micromachining and pulsed laser deposition for nanoparticles and thin-films.
(German language site) The company is a Contract Research Organisation for the development and improvement of advanced cell culture systems for industrial drug screening applications, biomaterial testing and pharma-toxicological research.
A spin off founded to commercialize FDEC FET nano sensor technology invented at Arizona State University.The novel nano sensor technology is capable of exponential capacitive transduction for ultra high sensitivity molecular detection, coupled with exceptional selectivity.
Inanovate creates nano-scale surface structures through a unique and proprietary process capable of nano-meter precision in a time and cost effective way. Leveraging this unique platform and expertise, Inanovate is developing nano-structured biochip substrates to facilitate the next generation in biochip technology.
In addition to lab instruments and supplies, the company provides nanotechnology model kits and components for the scientist and engineer involved in the teaching of design or research and development of nanotechnology.
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.