Researchers develop a set of entirely novel knobs to control correlated electrons and demonstrate that superconductivity can exist without insulating phases in Magic Angle Twisted Bi-layer Graphene.
Jul 7th, 2020
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Scientists have developed a novel instrument that can make three kinds of atom-scale measurements simultaneously: It images single atoms. It maps atomic-scale hills and valleys on metal and insulating surfaces. And it records the flow of current across atom-thin materials subject to giant magnetic fields.
Jul 7th, 2020
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The smallest cell structures can now be imaged even better: The combination of two microscopy methods makes fluorescence imaging with molecular resolution possible for the first time.
Jul 7th, 2020
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Physics team observed extremely fast electronic changes in real time in a special material class.
Jul 7th, 2020
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Scientists have developed a new form of ptychography that uses complex algorithms to achieve faster, more efficient imaging with picometer (one-trillionth of a meter) precision that won?t damage samples so easily.
Jul 7th, 2020
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Researchers have invented an electrically focus-tunable, graphene-based ultrathin subpixel square lens device that demonstrates excellent focusing performance.
Jul 6th, 2020
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Inducing surface strain to CeO2/Mn3O4 heterostructured nanocrystals can enhance antioxidant properties.
Jul 6th, 2020
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Researchers discover a quantum fluid - fractional quantum Hall states, one of the most delicate phases of matter - in a monolayer 2D semiconductor; finding could provide a unique test platform for future applications in quantum computing.
Jul 6th, 2020
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Scientists provide new insights into the interactions of layered materials with laser and electron beams.
Jul 6th, 2020
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Researchers have developed a human cell 'membrane on a chip' that allows continuous monitoring of how drugs and infectious agents interact with our cells, and may soon be used to test potential drug candidates for COVID-19.
Jul 6th, 2020
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Researchers have developed a novel direct growth method of vertically orientated nanocavity arrays to generate plasmonic structural colors, which feature wide gamut, improved color saturation, excellent stability in ambient condition and mass-production scalability.
Jul 3rd, 2020
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Researchers have come up with a novel electrode that could greatly improve the stability of perovskite solar cells, the most promising candidate for the next generation solar cells due to their low cost and high power conversion efficiency.
Jul 3rd, 2020
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Researchers have unveiled a novel material that could enable major leaps in the miniaturization of electronic devices.
Jul 3rd, 2020
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Researchers using a strategy called strain-engineering in 2D materials now say new types of cathodes, suitable for advanced energy storage, can be developed using beyond-lithium ion batteries.
Jul 3rd, 2020
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Scientists have found microscopic structures in perovskite crystals that can guide the charge transport in the solar cell. Clever alignment of these electron highways could make perovskite solar cells even more powerful.
Jul 3rd, 2020
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Previously, researchers discovered that the well-known coffee-stain effect is caused by a remarkable mechanism, showing avalanche-like behavior of particles in a fluid. They now show how to prevent the ring-shaped coffee-stain and get a uniform distribution of the particles instead.
Jul 3rd, 2020
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