Laboratory for Plasma Nanosynthesis at Princeton Plasma Physics Laboratory (LPN-PPPL) combines PPPL expertise in plasma science with the materials science capabilities of Princeton University and other institutions. LPN-PPPL is conducting collaborative research on the fundamental physics of plasma synthesis of nanomaterials with the goals to understand, predict, and ultimately control the synthesis processes starting from the plasma generation to nucleation and growth of nanoparticles and nanostructures. The LPN-PPPL research program focuses on the integration of three areas:
The InterNano Directory of Experts and Organizations is a listing of both researchers and research organizations that are engaged in nanomanufacturing.
Nano RAY-T is a Latvian hightech company with strong Technology Platform. We have developed several applications for using Carbon nanotubes (CNTs) with extremely high purity (99.5%) and stable technical characteristics.
Nano RAY-T technology:
- Technology of electron field emission (cold cathode) for Xray sources
- Additive material in 3Dprinting
- Technology for new generation of Energy storage based on carbon nanotubes (CNTs)
We produce all types carbon nanotubes (CNTs) with extremely high purity in 99.5% and stable characteristics.
NANOMOL is a research group with wide expertise and recognized excellence in the synthesis, processing and study of molecular and polymeric materials with chemical, electronic, magnetic and biomedical properties. We continuously generate new knowledge in our basic and applied research projects regarding the micro and nano structuring of molecular materials. We offer this knowledge to improve the properties of products manufactured in diverse sectors, such as chemicals, pharmaceuticals and electronics, thereby contributing to increasing their added value.
Creative Diagnostics is a leading manufacturer and supplier of magnetic particles, antibody arrays, critical immunoassay kits and reagents. We are dedicated to providing the most comprehensive list of products and fit-for-purpose custom design services to academia as well as industrial researchers and assay developers all around the world.
Since its foundation in 2006, BioNanoNet has promoted innovative research by supporting cooperation, creating synergies in Austria and initiating national and international research projects in the fields of medical and pharmaceutical research, nanomedicine, nanotoxicology and sensor technology. The success of the BioNanoNet stems from the “network platform” and the coordination among leading key players from this platform, which is the engine that drives interdisciplinary and innovative processes in these research areas.
We work closely with our customers and licensees to develop solutions tailored specifically for them that will be disruptive to their competitors.
Our new materials solve problems and deliver improved margins.
Our initial focus is to revolutionise the geosynthetics industry by developing new synthetic materials that use graphene to add functionality at a cost that makes the new materials highly competitive.
MetaShield™ is a pioneer in advanced glass-based thin film coating technology. Our 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.
By computing properties of all known materials, the Materials Project aims to remove guesswork from materials design in a variety of applications. Experimental research can be targeted to the most promising compounds from computational data sets. Researchers will be able to data-mine scientific trends in materials properties. By providing materials researchers with the information they need to design better, the Materials Project aims to accelerate innovation in materials research.
The overall aim of LIFE NanoMONITOR is to improve the use of environmental monitoring data to support the implementation of REACH regulation and promote the protection of human health and the environment when dealing with ENMs. Within the EU REACH Regulation, a chemical safety assessment report, including risk characterisation ratio (RCR), must be provided for any registered ENMs. In order to address these objectives, the project partners have developed a rigorous methodology encompassing the following aims:
Our team specializes in metamaterial research, nanofabrication, and computational electromagnetics; bridging the gap between the theoretical and the possible. With our in-house design, access to world-class nanocomposite research, and nanofabrication expertise, we are able to develop a wide array of metamaterial applications which encompass several industries including aerospace and defence, healthcare, energy, education, and clean-tech.
Our company is headquartered in Halifax, Nova Scotia and has offices in London, England and Pleasanton, California.