Teijin Fibers, the flagship company of the polyester fibers business of Teijin Group, has declared that it has started the supply of Nanofront, its high-strength polyester nanofiber, to New Balance for producing running socks.
Researchers, Professor Sir Andre Geim and Dr. Irina Grigorieva, from The University of Manchester have demonstrated that graphene can be made to behave like a magnet.
Durdu Guney from the Michigan Technological University has developed a model to fabricate superlens or perfect lens that is capable of utilizing visible light to view objects measuring 100 nm.
CelluForce, a Canada-based joint venture between Domtar and FPInnovations, will deliver a presentation about its novel nanocrystalline cellulose material and its performance-enhancing capabilities at the forthcoming BioPlastek 2012 Forum.
A research team from the Northwestern University has found that one-dimensional materials such as individual gallium nitride nanowires demonstrate powerful piezoelectricity, a three-dimensional phenomenon caused by the application of mechanical stress.
Intertek Cantox, a company offering regulatory and scientific consulting services, has developed a novel method called the Nano Study Score method to support superior-quality nanotoxicology studies in order to assess the safety of nanomaterial- and nanotechnology-based products.
Scientists from the Purdue University, Melbourne University and University of New South Wales have fabricated the smallest silicon-based wire in the world, with a current-conducting capability equivalent to that of copper wires. The silicon wire has four-atom width and one-atom height.
Using quantum mechanical calculations, a research team at the University of Houston has demonstrated that a graphene sheet can be converted into a piezoelectric material by producing holes in a specific pattern onto it.
Researchers from the University of California at Berkeley and Rice University have discovered that when stress is applied, graphene does not rip apart randomly like paper but follows the least resistance path resulting in new edges that provide remarkable properties to the wonder material.
Pioneer Surgical, a company specializing in medical devices, has announced the start of human clinical study of its three-dimensionally shaped bone graft product called nanOss Bioactive 3D that consists of a proprietary collagen-based biopolymer and nanocrystalline hydroxyapatite to support the growth of bone in the posterolateral spine.
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