In a study published in Advanced Functional Materials, researchers used in-situ synchrotron X-ray studies to determine that changes in the crystal structure and composition of LaCoO3 create ferromagnetism at the nanoscale.
In a study published in Physical Review Research, researchers devised a computational framework for ultra-high density optical memories, which can be applied to both quantum and classical devices for quantum information and microelectronics applications.
In a study published in NPJ Computational materials, researchers developed a method, SIPRAD, to accurately reconstruct the magnetic phase shift from a single Lorentz transmission electron microscopy image that outperforms previous techniques.
In a study published in Advanced Materials, researchers reveal the nanoscale evolution of novel polar domain configurations arranged in mesoscale networks that can be manipulated with controlled laser impulses.
In a study published in PNAS, researchers developed a new X-ray photon correlation spectroscopy analysis that reveals hidden dynamics and enhances soft material design for applications in advanced manufacturing to natural phenomena.
In a study published in Physical Review Letters, researchers revealed that nanosecond electrical pulses modulate charge density waves in two steps, which can be used to mimic neuron-like activation and firing for artificial neural networks.
In a study published in American Chemical Society Nano Letters, researchers used 3D reconstructions of helical nanowires to study the effect of curvature on domain wall formation, which is fundamental for manipulating spin textures in nanomaterials.
In a study published in the Journal of the American Chemical Society, researchers report the first example of bulk polymorphism in the Ruddlesden-Popper family, suggesting that other RP polymorphs may also exist.
