Design and development of advanced ceramic composite materials, coatings and thermal-structural components, including nanoengineered materials, produced by chemical vapor infiltration (CVI) and chemical vapor deposition (CVD).
Hypercat ACP™ is a leading edge, technologically-driven emissions control manufacturing company. Through our joint venture with Nanostellar™, Hypercat has exclusive rights to proprietary technology enabling it to design and build catalysts using significantly less PGM without sacrificing efficacy, function or durability. Alongside a suite of standard products, Hypercat offers highly effective, cost efficient emissions controls solutions.
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.
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.
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.
Industrial Sonomechanics offers high-intensity industrial ultrasonic liquid processors for the production of nanoemulsions and nano-particle suspensions for pharmaceutical, cosmetic, food, ink, paint, coating, wood product and metalworking industries.
InStep NanoPower have developed an inexpensive simple high-power energy harvester capable of converting mechanical energy to electrical power providing up to 20 Watts, which can dramatically extend the capabilities and operational times of a wide range of mobile electronic devices. The mechanical energy is converted to electrical energy by a novel microfluidic device through the interaction of thousands of liquid microdroplets with a groundbreaking nanostructured substrate.
All of INT's products are based on a patented technology for chemically synthesizing complex electronic circuits and devices. Using DNA as a substrate, conductors, semiconductors, plastics and other materials can be attached to specific locations on a DNA strand to form wires, transistors, diodes and other electronic components.