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Characterization news, June 2023

atom probe tomography reveals crucial organic-inorganic interfacial interactions during mineralization

simple, scalable one-pot, non-toxic, catalyst-free process yields hexagonal boron nitride (h-BN) nano-onions

Researchers have discovered that the tranisition to a superconducting state in iron selenide is driven by a collective shift in orbital energy.

Researchers have shown that electric fields can be used to control the motion of material defects in crystalline materials.

By stacking and twisting bilayers of a 2D magnet, researchers have shown they can produce tunable moiré magnetism.

Researchers have shown that boron vacancies in the 2D material known as hexagonal boron nitride can act as nanoscale magnetic field sensors.

By utilizing a clear-zone assay, researchers have developed a novel dataset to help determine whether or not a polymer is biodegradable.

Researchers have managed to gain a fundamental understanding of how novel ferroelectric materials switch at the atomic level.

Researchers have shown how a highly ordered crystal of bosonic particles called excitons can arise from a moiré pattern between 2D materials.

Researchers used several different microscopy techniques to image the reactions taking place at various specific locations on catalysts.

Researchers have studied the effects of reversible interactions on the dynamics of new associative polymers they developed.

Researchers have uncovered evidence for the existence in superconductors of quantum vortices with arbitrary fractions of quantum flux.

Researchers have developed a low-cost cobalt-based catalyst for use in an electrolyzer that produces hydrogen from water.

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Using a 3D layer of silicone as the substrate for a lithium metal anode can mitigate dendrite formation and dramatically extend battery life.


Researchers have found that a crystal made of cobalt, manganese and gallium is a room-temperature topological magnet that hosts quantum loops.


By producing large, high-quality bismuth iodide crystals, researchers have shown these crystals can act as two different types of topological insulator.