IBM has a 433 qubit quantum processor called Osprey and has a roadmap for 4000 qubits in 2025 and 100,000 qubits by 2030. These are more powerful qubits than the 5000+ adiabatic qubits from DWave Systems. Most other quantum computer companies are ...
Nov 28, 2022
Knowing the magnetic structure of crystalline materials is critical to many applications, including data storage, high-resolution imaging, spintronics, superconductivity, and quantum computing. Information of this sort, however, is difficult to co...
Nov 28, 2022
Producing chirality, a property found throughout nature, through large-scale self-assembly could lead to applications in sensing, machine perception and more.
Nov 28, 2022
Theoretical physicists use computer models, equations and scientific figures to explain how nanostructures assemble.
Nov 28, 2022
A breakthrough algorithm expands the exploration space for materials by orders of magnitude.
Nov 28, 2022
Peel-and-stick device could pave the way for remote monitoring.
Nov 28, 2022
Researchers have developed a new strategy to help build materials with unique optical, magnetic, electronic and catalytic properties. These pinwheel-shaped structures self-assemble from nanoparticles and exhibit a characteristic called chirality -...
Nov 28, 2022
With atomic precision, scientists built a testbed to manipulate electrons in entirely new ways with potential applications in quantum computing.
Nov 28, 2022
Researchers at the UPC's Department of Electronic Engineering have developed a new type of magnetometer that can be integrated into microelectronic chips and that is fully compatible with the current integrated circuits. Of great interest for...
Nov 28, 2022
Today we published a new edition of our Graphene Batteries Market Report, with all the latest information. The batteries market is extremely active, as demand from EVs and mobile applications increases research and development efforts, and graphen...
Nov 28, 2022
