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Crystalline materials news

Researchers have shown that machine learing can automatically process the diffraction patterns produced by analyzing suface superstructures on silicon.

Researchers have developed a way to produce identical photons, with the same wavelength and polarization, from separate quantum dots.

Researchers have used a novel spectroscopy technique to map the dynamic behavior of phonons in quantum dots at atomic scale.

Using spinning arrays of magnetic particles, researchers have modeled how shear influences grain boundaries in polycrystalline materials.

A membrane produced by embedding a metal-organic framework into a polymer can remove hydrogen sulfide and carbon dioxide from natural gas.

By firing microscopic particles at a surface, researchers have been able to study how the tiny crystalline grains in solid metals form at the nanoscale.

Researchers have shown that knot theory can be used to understand the behavior of electrons in quantum materials such as topological magnets.

Using multiple supercomputers, researchers have discovered that 90% of all known crystalline structures contain at least one topological property.

Researchers used computational models to understand how tungsten oxide catalysts interact with hydrogen at the molecular level.

Researchers have shown that nanowires made from a specific isotope of silicon can conduct heat 150% more efficiently than normal silicon nanowires.

Researchers have developed a method for simultaneously synthesizing and analyzing novel materials under very high compression pressures.

Computational detective work by a team of researchers has confirmed that cerium zirconium pyrochlore is a 3D quantum spin liquid.

Researchers have uncovered the previously hidden sub-nanoscale origins of the exceptional thermoelectric properties of silver gallium telluride.

Researchers have discovered a novel strategy for using an antiferromagnet to switch the magnetization in thin layers of a ferromagnet.

Researchers have discovered layered 2D materials able to host magnetic features called skyrmions that remain stable at room temperature.

colloidal photonic crystal ink enables printing of 2D and 3D colored structures using additive manufacturing techniques

Scientists have grown thin films of two different crystalline materials on top of each other using an innovative technique called ‘dative epitaxy’.

A machine-learning system that utilizes experience could speed up the development of optimized production methods for perovskite solar cells.

Using a superlattice of hafnium oxide and zirconium oxide as a gate oxide, researchers have created transistors that consume much less energy.

Using stacked layers of a novel semiconducting material, researchers have managed to produce a highly efficient deep-ultraviolet laser.

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Oct ’22