| Abstract |
NEreO addresses to the study and the development of nano-scale field-effect transistors (i.e. transistors with source-drain inter-electrodes distance varying from hundreds to few nanometers) based on organic molecular films. Organic materials are expected, in the near future, to give rise to a new generation of devices for electronics, photonics and optoelectronics, which will cause a paradigm shift in the production of electronic devices and pave the way for the era of plastic electronics. The main goals of NEreO will be achieved by the original combination of a sophisticated nano-scale fabrication method, namely e-beam lithography, with the unprecedented ability of the Supersonic Molecular Beam Epitaxy deposition technique to control morphology, structure and interfaces of organic films. Besides technological applications, nano-scale organic field-effect transistors will be basic tools for studying charge transport, charge injection and interfaces in organic materials. At Cornell, the fellow will benefit by the presence of several multicultural scientific communities built around national facilities such as the Cornell Nanoscale Science and Technology Facility, the Cornell Center for Materials Research and the Cornel High Energy Synchrotron Source. The fellow will thus attain levels of world-class excellence, satisfying the objectives of the Specific Programme, and acquire the professional independence required to realize the objectives of the Work Programme. The success of NEreO will rely on the multidisciplinary approach pursued together with the state-of-the-art facilities and methodologies adopted. The collaboration between two world-class leading experts will give the chance to Dr Cicoira to grow as a leading scientist with global thinking and ability to promote networks and common strategy for the creation of new facilities.
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