The primary goal of Graphene Laboratories, Inc., located in Calverton, NY, is to apply fundamental science and technology to bring functional graphene materials and devices to market. The company was founded by a group of experts in the field of nanomaterials, who possess extensive experience in the characterization of structural and electronic properties of graphene, as well as deep fundamental and practical knowledge of processing graphene-based materials.
The Cambridge Nanomaterials Technology (CNT) Ltd is a nanomaterials innovation, management and technology consulting company based in Cambridge, England.
The CNT Ltd helps companies, universities and government institutions to develop nanomaterials related technology, products, R&D strategy and partnership, intellectual property and market strategies, training and funding.
Picosun is an international equipment manufacturer with a world-wide sales and service organization. We develop and manufacture Atomic Layer Deposition (ALD) reactors for micro- and nanotechnology applications. Picosun provides the customers with versatile, reliable, and user-friendly ALD process tools, which offer unique scalability from research to production. Picosun is based in Espoo, Finland and has its US headquarters in Detroit. SUNALE™ ALD process tools have been installed in various universities, research institutes, and companies across Europe, USA, and Asia.
This pilot action GRAPHENE-CA paves the road to the FET Flagship "Graphene-Driven Revolutions in ICT and Beyond" (GRAPHENE). The GRAPHENE flagship ambition is to bring together a focused, interdisciplinary European research community that aims at a radical technology shift in information and communication technology that exploits the unique properties of graphene and related two-dimensional materials. Graphene research is an example of an emerging translational nanotechnology where discoveries in academic laboratories are rapidly transferred to applications and commercial products.
Vorbeck develops Vor-x products to meet real-world industrial challenges. Vor-ink formulations harness the exceptional conductivity of graphene: ultra-flexible and robust inks and coatings for the printed electronics market. In energy applications, Vor-x delivers demonstrable performance gains by breaking traditional technology trade-offs between battery capacity and power output. Plastic and rubber composites with low Vor-x loadings attain extreme levels of strength, dimensional stability, conductivity, and environmental resistance, opening new application and design possibilities.