Graphene-hBN breakthrough to spur new LEDs, quantum computing
In a discovery that could speed research into next-generation electronics and LED devices, a University of Michigan research team has developed the first reliable, scalable method for growing single layers of hexagonal boron nitride on graphene.
Quantum computational advantage with a programmable photonic processor
Bilayer graphene inspires two-universe cosmological model
Bacterial soundtracks revealed by graphene membrane
QSolid - Paving the Way for the First German Quantum Computer
CEA and Startup C12 Join Forces to Develop Next-Generation Quantum Computers with Multi-Qubit Chips at Wafer Scale
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