What makes FLEXcon unique is our relentless pursuit of the right coated and laminated film or adhesive for each and every application - a total solution with fewer compromises. Our aim is high with a goal of achieving a better business result for you, not just delivering a better product.
The InterNano Directory of Experts and Organizations is a listing of both researchers and research organizations that are engaged in nanomanufacturing.
FullScaleNANO, takes EM images of naomaterials and coverts them into actionable data. Our NanoMet software processes a data point every millisecond. Instead of relying on a few measurments, NanoMet allows you to analyze thousands of measurments of your material at a cost of pennys per measurment. It is objective, fast, and reliable. It speeds time to market and saves our customers money.
NINT will be a global leader in nanotechnology recognized for its people, partnerships and performance in creating Canadian prosperity through responsible deployment of nanotechnologies.
To transform nanoscience ideas into novel, sustainable nanotechnology solutions with socioeconomic benefits for Canada and Alberta.
The innovative and economic potential of Manufactured Nano Materials (MNMs) is threatened by a limited understanding of the related EHS (Environmental Health and Safety) issues. While toxicity data is continuously becoming available, the relevance to regulators is often unclear or unproven. The shrinking time to market of new MNM drives the need for urgent action by regulators. NANoREG is the first FP7 project to deliver the answers needed by regulators and legislators on EHS by linking them to a scientific evaluation of data and test methods.
This group focuses on the manufacturing of nanoparticles and well organized structures containing many nanoparticles. More generally, the field of nanotechnology focuses on small scale particles and devices. For instance, some of the particles we study such as Carbon Nanotubes (CNTs) can have diameters of less than 1 nm, this is roughly 100.000 times smaller than a human hair. At the same time these tubes can reach very long lengths, up to more than half a meter.
Semblant is the industry leader in the transformational field of nanomaterials for electronics manufacturing. Its mission is to deliver advanced plasma deposited materials that radically improve electronics manufacturing. Semblant’s plasma processes reduce energy use, require no water or hazardous material recycling and replace the need for expensive metals while providing improved product quality and lower manufacturing costs. Semblant’s processes have achieved acceptance by major manufacturers and original equipment manufactures worldwide.
Novalia is an award winning technology company based in Cambridge, UK.
We combine conductive print and capacitive touch to create smart surfaces that act as sensors and speakers. We wirelessly connect the digital world to the physical through the touch of your fingertips. Working across the media, advertising, music and healthcare sectors, we find innovative and exciting ways to connect brands to their target audience.
Novarials Corporation, a leading nanowire technology builder headquartered in Woburn, MA, has a technical leadership on the large scale and cost effective manufacturing of high-quality and precisely-engineered one-dimensional nanomaterials including ceramic nanowires, semiconductive nanowires, metallic nanowires, ceramic nanotubes, magnetic nanotubes and nanorings, etc. Currently we are offering over two dozens of nanowire products. Our nanowire products are expected to have huge potentials in dozens of industries.
Laser Assisted Nano Engineering group (LANE) at the University of Nebraska-Lincoln was established in fall of 2002 by professor Yongfeng Lu. LANE group carries out state of art research in the field of nanotechnology using lasers. We aim to develop novel techniques using lasers for various applications including surface cleaning, building photonic devices, nanoimprinting, nano-manufacturing, nano-Raman and Coherent Anti-Stokes Raman Scattering (CARS) microscopy.