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 InterNano Directory of Experts and Organizations is a listing of both researchers and research organizations that are engaged in nanomanufacturing.
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.
Nanotechnology constitutes a great promise for domains as diverse as product development, environmental conservation, medicine and information technology while simultaneously giving rise to numerous concerns about potential health risks and environmental hazards. In addition, nanotechnology raises wider social and ethical issues regarding unintended long-term consequences, social and financial risks, issues of governance and control and fundamental issues about life and human identity.
FullScaleNANO, is customer centric. We were created in 2012 by a team of scientists and entrepreneurs who recognized the need to efficiently get reliable dimensional analysis data from electron microscope images. The team joined the fields of materials, chemistry and physics with the computer science of intelligent image processing to create NanoMet. The FullScaleNANO headquarters in Tallahassee, Florida houses the sharp scientific minds of company and the innovative software development team hub is in Atlanta, Georgia.
US Research Nanomaterials, Inc. is a high-tech enterprise focusing on research and development of nanotechnology. We have cooperated closely and steadily with well-known research universities, national laboratories and innovative corporate giants. We are successful because we are committed to provide the highest quality products with the most reasonable price for our customers who are doing nanotech research and have formed a complete cycle of researching, manufacturing, marketing and after-sale servicing. Our products have been sold to many countries around the world.
MackGraphe is the first center dedicated to research on two-dimensional materials in Latin America, with an investment of about US$ 20 million, aiming to be one of the reference centers in that area of research in the world.
The building MackGraphe with about 4000 m2, spread over 9 floors, fully equipped to meet its researchers. In addition to the laboratories with advanced equipment, researchers have access to a clean room "Class 1000".
Carbice develops innovative materials solutions that produce substantial value in electronic device markets including LEDs, high power computers, mobile devices, aerospace, and defense.
We offer disruptive materials and substrates with low thermal resistance, high mechanical compliance, and excellent durability under the world's most demanding application conditions.
HE3DA Ltd. is an innovator in applied research and commercialization of battery technologies. The company’s 3D technology and Li-battery production processes are based on three dimensional electrodes using lithium nano-materials (patented HE3DA® technology).
Highly crystalline nano particles, known as nano crystalline cellulose (NCC), are released when cellulose fibrils are processed under carefully controlled conditions. A unique technique for the self-assembly of NCC particles into highly ordered, cellular structures has recently been developed by Melodea and the Hebrew University of Jerusalem.
NCC-Foam will address this process by developing commercially-viable, lightweight, rigid foam core materials from self-assembled nano-crystalline cellulose (NCC).