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A novel method for growing thin-films of barium titanate with few defects could lead to more energy efficient electronic devices.

well-ordered novel carbon nanostructures such as nanowalls can be grown by electrodeposition from molten salts

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

Using a kind of puzzle-solving process, researchers have pieced together a method to determine how different 2D materials respond to disorder.

Unique properties of 2D materials stressed by contoured substrates

Researchers have discovered that the dielectric constant of their strontium titanate films exceeds 25,000 – the highest ever measured for this material.

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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.

Higher-eigen-mode imaging has revealed that a flexible semiconducting polymer has a ‘fruitcake’ structure with harder and softer regions.

Using computational and experimental methods, researchers have compared the superconducting properties of layered nickelates and cuprates.

Researchers have discovered that the tiny defects that limit the efficiency of perovskite solar cells are also responsible for their degradation over time.

By reacting sugar molecules with alkali metal salts, researchers have created a sponge-like material that can trap carbon dioxide in its cavities.

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.

Researchers have discovered that superconductivity can be intertwined in unexpected ways with ripples of electrons known as charge density waves.

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

Using nanometer-thick organic semiconducting films, researchers have, for the first time, mapped how energy flows in organic solar cells.

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.

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Unique properties of 2D materials stressed by contoured substrates

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well-ordered novel carbon nanostructures such as nanowalls can be grown by electrodeposition from molten salts

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fluorescent silk tag authenticates medicines and alcohol

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Jul ’22

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