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Characterization CHANGE TOPIC

Characterization news

Scientists have characterized carp scales down to the nanoscale, potentially allowing their toughness to be replicated in synthetic structural materials.

Researchers have detected signatures of a cascade of energy transitions that could help explain how superconductivity arises in magic-angle graphene.

Scientists have developed an open-source program called SEMseg to count and characterize nanoparticles from scanning electron microscope images.

The spontaneous formation of hollow structures in nanoscale antimony crystals could increase the energy density of lithium-ion batteries.

By combining them with fluorescent molecules, researchers have, for the first time, been able to study the real-time dynamics of boron nitride nanotubes.

At very high temperatures and pressures, nitrogen can adopt the same 2D crystalline structure as black phosphorus.

By inserting metal atoms between transition metal dichalcogenide monolayers, researchers have created a whole new library of 2D materials.

A felt of nickel microfibers has the optimum combination of surface area and bubble release for producing hydrogen via electrolysis.

Scientists have uncovered evidence that the 2D material tungsten ditelluride conducts electricity in very narrow channels at its outer edges.

Researchers have discovered that carbon atoms in the ceramic material silicon carbide collect at grain boundaries when it is exposed to radiation.

Researchers have discovered that adding graphene to the carbon fiber production process can greatly increase the strengthen of the material.

The transport of electronic charge in a strontium ruthenate superconductor breaks the rotational symmetry of the underlying crystal lattice.

mineralized skeletons of sea urchins that are light and robust hold important clues for analyzing and designing artificial porous materials

A novel heat treatment with an organic group can enhance the stability of tin halide perovskite solar cells by preventing tin oxidation.

By combining machine learning with X-ray tomography, scientists have produced a detailed picture of how battery cathodes degrade with use.

Scientists think that defects in low-dimensional perovskites may be responsible for their broad emission spectrum and large color variation.

Scientists have used single-crystal electrodes to reveal information about the workings of polycrystalline electrodes in advanced silicon-ion batteries.

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