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.
In a study published in Nanoscale, researchers demonstrate how nanostructuring and patterning of heteroepitaxial superlattices allow for pathways to create and control ferroelectric structures that may appear counterintuitive.
In a study published in Nature Communications, researchers report investigation show slowing down of electronic recovery corresponds to pseudo-critical dynamics that originate from magnetic interactions close to a weakly first-order phase transition.
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.
In a study published in Nature Communications, researchers develop a comprehensive model of the defects and optical processes involved, offering a strong basis to improve material design and to develop quantum applications in SiC.
In a study published in Nano Letters, researchers experimentally reconstruct the temperature map of an operating coplanar waveguide to confirm the accuracy of the platforms.
In a study published in Advanced Materials, researchers show results describing a generic framework for the construction of dynamic systems and devices with an array of field‐tunable properties.
In a study published in Advanced Electronic Materials, researchers developed work in the quantitative relationship between the surface and bulk electronic structures provides guide for precise engineering of the oxygen‐vacancy‐induced 2DEG in SrTiO3.
In a study published in Nature Photonics, researchers indicated the observed nonequilibrium anisotropic structural dynamics agrees with first-principles modelling in both real and momentum space.
In a study published in Scientific Reports, researchers determined the spatial distribution of the defects optimizing the critical current and found that it is in general non-uniform and asymmetric.