In a recent study published by Proceedings of the National Academy of Sciences USA, Center for Nanoscale Materials researchers demonstrated perovskite nickelates as Li-ion shuttles with simultaneous suppression of electronic transport via Mott transition.
In a recent study published by Applied Physics Letters, researchers at the Center for Nanoscale Materials developed a method to directly investigate regions of interfacial magnetism and to detect and measure the local magnetism and chemistry.
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 Nano Letters, researchers experimentally reconstruct the temperature map of an operating coplanar waveguide to confirm the accuracy of the platforms.
In a recent study published in Nanoscale, researchers show that an irreversible transition between strongly non-collinear and single domain states translate into a nonlinear magnetic response that enables ultrasensitive detection.
In a study published in Science, researchers results suggest that the lubricating properties of polyelectrolyte brushes in multivalent solution are hindered relative to those in monovalent solution.
In a recent study published in Nature Communications, researchers at the Center for Nanoscale Materials shed light on the design of materials that exhibit highly anisotropic thermal dissipation properties.
In a recent study published in Nature Materials, researchers provide new guidelines for evaluating displacive models and hence the piezoelectric properties of environmentally friendly next-generation materials.
In a study published in Nanoscale, Argonne researchers demonstrate, using a combination of microscopies, the mechanisms by which bacteria are killed, emphasizing the dependence upon pillar density and tip geometry.