The University of Cambridge is a partner in the €1 billion Quantum Flagship, an EU-funded initiative to develop quantum technologies across Europe.?
Researchers from the Cambridge Graphene Centre, together with industrial and academic collaborators within the European Graphene Flagship project, showed that integrated graphene-based photonic devices offer a solution for the next generation of optical communications.
Researchers have created a technology that could lead to new devices for faster, more reliable ultra-broad bandwidth transfers, and demonstrated how electrical fields boost the non-linear optical effects of graphene.?
Researchers have developed all-electrical ultra-thin quantum LEDs, which have potential as on-chip photon sources in quantum information applications, including quantum networks for quantum computers.?
Researchers have shown that graphene can be used to make electrodes that can be implanted in the brain, which could potentially be used to restore sensory functions for amputee or paralysed patients, or for individuals with motor disorders such as Parkinson’s disease.?
A major showcase of companies developing new technologies from graphene and other two-dimensional materials took place this week at the Cambridge Graphene Centre.
Europe's Graphene Flagship lays out a science and technology roadmap, targeting research areas designed to take graphene and related two-dimensional materials from academic laboratories into society.
Scientists working with Europe's Graphene Flagship and the Cambridge Graphene Centre have provided a detailed and wide-ranging review of the potential of graphene and related materials in energy conversion and storage.