A technology developed by a team led by Dr. Núria Crivillers, researcher at the Nanomol Group at ICMAB, has been selected as a high potential innovation by the European Union (EU).
The EU recently launched the Innovation Radar tool, an initiative to identify high potential innovations and innovators in EU-funded research and to increase their visibility through the Innovation Radar website, making them available to potential users and to the society.
The innovation was developed in the framework of the FP7 project “Electrical spin manipulation in electroactive molecules” (ACMOL). It consists of a new approach to fabricate narrow bridges in graphene layers in order to facilitate the creation of a localized nano-gap by electroburning, and therefore nanometer-spaced graphene electrodes.
Before creating the small space between the two graphene layers, the geometry is enhanced by creating a “bow-tie-shaped” bridge using lithography techniques. This narrow bridge will improve the electroburning step, which creates the nano-gap. A single molecule can be trapped in this small space, allowing the measure of electron transport across the graphene electrodes.
This innovation is said to be faster and more cost-effective compared with other technologies: hundreds of devices can be prepared in one single step from commercially grown graphene. This innovation opens the door to the fabrication of chips based on graphene electrodes.
About the National Graphene Association (NGA)
The National Graphene Association is the main organization and body in the U.S. advocating and promoting the commercialization of graphene. NGA is focused on addressing critical issues such as policy and standards development that will result in effective integration of graphene and graphene based materials globally. NGA brings together current and future graphene stakeholders — entrepreneurs, companies, researchers, developers and suppliers, investors, venture capitalists and government agencies — to drive innovation, and to promote and facilitate the commercialization of graphene products and technologies.