Guided by theory and enabled by synthesis, the Alan G. MacDiarmid NanoTech Institute develops new science and technology exploiting the nanoscale. Its researchers inspire students by creating an atmosphere of excitement, fun, and creativity. We design frontier science and technology by teaming globally, and providing a place where physicists, chemists, biologists, ceramicists, metallurgists, and mathematicians join in teams with engineers to solve problems.
The InterNano Directory of Experts and Organizations is a listing of both researchers and research organizations that are engaged in nanomanufacturing.
The Penn State Nanofabrication Laboratory (Nanofab) is a fully staffed user research facility offering more than 70 nanofabrication and characterization tools that enable fabrication and characterization of a wide range of devices to support fundamental and applied research. Researchers from Penn State, other universities, government labs, and industry take advantage of the expertise and world-class facilities of the Materials Research Institute’s Nanofabrication Laboratory.
SGT has the expertise and experience in developing high performance materials and products through innovative applications of nanotechnology. “Nanotechnology” is the design, production (synthesis) and application of nanomaterials and nanostructures in advanced macrosystems. Materials reduced to the nanoscale (1x10-9 meter) show very different properties compared to what they exhibit on a macro-scale thereby enabling unique applications. It is possible to produce ultra-strong and ultra-light multifunctional materials through nanotechnology.
Clevios™ - Conductive, Transparent and Flexible Polymers
Innovative materials allowing new advances in electronics.
The demands made on electronic components are constantly increasing. The trend towards miniaturization and at the same time, improved performance calls for new innovative materials of the highest reliability. Hereaus conductive polymers offers a range of monomers, oxidizers, Clevios™ PEDOT:PSS polymer dispersions and
ready-to-use formulations to the electronics industry.
FlexTech Alliance, headquartered in San Jose, California, is devoted to fostering the growth, profitability and success of the flexible and printed electronics supply chain, and the many application areas enabled by this new class of electronic intelligence. FlexTech Alliance offers expanded collaboration between and among industry, academia, and research organizations for advancing flexible, printed electronics from R&D to commercialization. We believe that tomorrow, the world will be healthier, safer, simpler and smarter because of advancements in flexible electronics.
LINTEC OF AMERICA specializes in proprietary semiconductor manufacturing related products, called Adwill. These include a wide array of product lines featuring high-function adhesive tapes such as Non UV and UV dicing tape, BG surface protective tape, and die attach specialty films. Lintec is also the industry leader in Wafer Mounting Systems and UV Irradiation Systems.
A leader in providing technical innovation, LINTEC OF AMERICA offers solution to our customers that continue to push the envelope for performance and reliability.
At PEN, we’re harnessing nanotechnology, the science of the infinitely small, in products that have big impact on health, safety and sustainability. They perform better, faster, smarter, stronger, cleaner – to make every day better for people and the planet.
From healthcare to homecare, homeland defense to food security, transportation to recreation, products from our family of companies are transforming the way we live, work and play.
The Mission of the Cambridge Graphene Centre is to investigate the science and technology of graphene, carbon allotropes, layered crystals and hybrid nanomaterials. This engineering innovation centre allows our partners to meet, and effectively establish joint industrial-academic activities to promote innovative and adventurous research with an emphasis on applications.
A new generation of high capacity, high discharge rate batteries requires a new generation of separator membrane. Elegus has designed a solution, a separator capable of withstanding demanding operation conditions and high currents. Elegus Technologies is commercializing an ultra-strong membrane made from high-performance nanoscale fibers developed at the University of Michigan. The patent-pending process is based on transformation of para-aramid threads into membranes with pores in the 5-50 nm range.