Scientists from CiQUS, ICN2, University of Cantabria, DIPC and DTU join forces to develop a versatile method for building brick-by-brick carbon nanocircuits with tunable properties. Possible applications include future electronic devices, circuits for quantum computers, and thermoelectric nanomat
In a significant development, researchers have created a new graphene nanostructure with adjustable properties by connecting graphene strips using adaptable “bridges.” This discovery has the potential to influence quantum computing and renewable energy applications.
Possible applications include future electronic devices, circuits for quantum computers, and thermoelectric nanomaterials for renewable energy. A team of researchers led by Prof. Aitor Mugarza, from the Catalan Institute of Nanoscience and Nanotechnology and ICREA, together with Prof.
These ground-breaking findings, resulting from a collaboration between top-tier Spanish institutions and the Technical University of Denmark , shows that the proposed molecular bridge strategy can have a great impact on the synthesis of new materials with tailored properties and is a powerful tool for the realization of quantum circuits. These perform operations similar to those of conventional circuits, although unlike the latter, quantum circuits leverage quantum effects and phenomena.
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