This project aims to realize next-generation platforms for quantum information science based on silicon carbide crystals that are promising theoretically but require development of rational synthesis strategies.
In a study published in Nano Letters, researchers found the penetrating nature of X-ray radiation, together with the relaxed constraints of multiangle Bragg projection ptychography, will enable the in operando imaging of nanowire devices.
The University of Chicago is seeding promising projects with Argonne National Laboratory and Fermi National Accelerator Laboratory in the emerging fields of artificial intelligence and quantum science.
In a study published in Journal of Chemical Theory and Computation, researchers indicate density-corrected DFT is both significantly more accurate and reliable and yields a consistent prediction for the Fe–Porphyrin complex.
A leader in the computing sciences, the MCS Division provides the numerical tools and technology for solving some of our nation’s most critical scientific problems.
In a study published in Proceedings of the National Academy of Sciences, researchers indicate that due to the piezoelectric character of SiC, they obtain spatial 3D maps of surface acoustic wave modes in a mechanical resonator.