Ben-Gurion University of the Negev (BGU) and University of Western Australia researchers have developed a new process to develop few-layer graphene for use in energy storage and other material applications that is faster, potentially scalable and surmounts some of the current graphene production limitations.
Research and Markets has announced the addition of the "The Global Market for Graphene and 2-D Materials: Technologies, Production, End User Markets and Opportunities Analysis, 2015-2025" report to their offering.
Energizer Resources Inc. is pleased to announce that UK-based Haydale Graphene Industries PLC, a global leader in the processing and application of graphene nanomaterials, has verified that the Company's Molo flake graphite has passed initial testing to be a viable source of graphene nanoplatelets for development of graphene inks for printed and flexible electronics.
A team of researchers from Korea University, Seoul, has developed an easy and scalable technique for growing graphene, and have synthetically produced high-quality, multi-layer, wafer-scale graphene on silicon substrates. This latest breakthrough paves the way for using graphene in silicon microelectronics on a commercial scale.
Joshua Robinson recalls the day in 2006 when he learned of a material that is, for all practical purposes, two-dimensional.
University at Buffalo engineers have been awarded an $800,000 grant by the Office of Naval Research to create narrow strips of graphene called nanoribbons, which can be a probable solution for how power can be controlled in ships, smartphones and other electronic gadgets.
CVD Equipment Corporation, a leading provider of standard and custom chemical vapor deposition systems, today announced that it has received in excess of $13 Million in new orders during the quarter ended June 30, 2015.
A team of scientists at the Max Planck Institute for Polymer Research (MPI-P) discovered that electrical conduction in graphene on the picosecond timescale – a picosecond being one thousandth of one billionth of a second – is governed by the same basic laws that describe the thermal properties of gases. This much simpler thermodynamic approach to the electrical conduction in graphene will allow scientists and engineers not only to better understand but also to improve the performance of graphene-based nanoelectronic devices.
Just as proteins are one of the basic building blocks of biology, nanoparticles can serve as the basic building blocks for next generation materials. In keeping with this parallel between biology and nanotechnology, a proven technique for determining the three dimensional structures of individual proteins has been adapted to determine the 3D structures of individual nanoparticles in solution.
LOMIKO METALS INC. 100% owned subsidiary continues to hold a 4,396,970 share stake in Graphene 3D Lab. However, Graphene 3D Lab Inc. announced July 13, 2015 that its outstanding shares will be reduced 7.3% from 44,387,500 to 41,164,955, increasing Lomiko's percentage ownership.
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