MEARS Technologies develops advanced CMOS solutions and associated manufacturing technology for leading-edge semiconductor chip producers and contract foundries to achieve competitive advantages at sub-micron levels.
The company's main fields of activity are membrane separation processes utilizing nanotechnology, such as electrodialysis, electrodeionization, membrane electrolysis, reverse osmosis, microfiltration, ultrafiltration, and nanofiltration.
MetaShield™ is a pioneer in advanced glass-based thin film coating technology. Their proprietary nanostructured formula doubles the break resistance of glass. It is ultra-thin, highly durable, transparent, easy to apply, and cures at room temperature. MetaShield™ is sprayed on as a liquid and hardens into an sheet of glass that is approximately 50 times thinner than a human hair. Since it is glass based, is has superior transparency and durability, yet has the flexibility and versatility normally associated with commonplace waterborne polymer coatings. MetaShield™ is also a robust and resilient delivery vehicle for nanoparticles that can give ordinary objects extraordinary abilities, without adding size or weight. Nanoparticles tailored to multiple industry uses and applications are seamlessly incorporated into the composite formula.
LASAW analytical instrument - laser actuated surface acoustic wave analysis of thin film materials. Analysis of physical/mechanical properties such as hardness, density, and elasticity of thin film materials down to the meso/nano level thickness.
MFStek manufactures and globally distributes ready-to-use and concentrated nano and micro-scale Layer Forming Surface Modifiers (nLFSM/mLFSM), manufacturing additives and custom industrial chemical formulations. Using innovative and proprietary Technology Platforms that translate to a product breadth and depth of over 500 hundred variants, MFStek offers a wide range of nanotechnology surface coatings, micro-scale polysiloxane epoxy coating systems and environmentally responsible industrial chemicals, packaged and diluted for maximum sustainability and compatibility.
Micralyne, a pioneer in Lab-on-a-Chip microfluidics, has significant know-how in developing and manufacturing microfluidic chip devices. The company's experience is used to develop Lab-on-a-Chip offerings within the life sciences industry. Capabilities include a proprietary method to deposit engineered nanostructured thin films (GLAD) for next generation nano and micro devices.
MicroDysis designs and markets biomedical and environmental devices and systems that use embedded carbon nanotubes to solve a wide variety of real-world problems. The Company's patented micro-molding fabrication and nanotube assembly techniques are able to embed vertically oriented carbon nanotubes into a polymer matrix. This approach increases the functionalized surface of a device by 10,000 times and provides an ideal matrix for attaching molecular probes and other chemically active absorbers for maximum detection sensitivity.
Microflow CVO is dedicated to providing high performance micromixers and microfluidic components that improve reaction control, reduce waste, and lower capital costs. The company's growing suite of standard micromixer designs will meet the needs of many research and industrial customers. In addition, they build customized products to meet unique needs.
Micromaterials (P) Ltd. is a Bangalore based company focused on developing innovative nano and micro technologies and materials catalysts. The new generation catalysts are the result of a radically new patented process.
Provides a complete line of scientific instruments and laboratory equipment targeted exclusively for areas of application and research involving particle science and particle technology, including nanoscience.