Using an instrument for ultrafast electron diffraction (MeV-UED), a tool for ultrafast science, researchers discovered how an ultrathin material can circularly polarize light.
Jul 10th, 2024
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Drawing inspiration from civil, mechanical, electrical and chemical engineering, researchers have developed and tested a new mathematical model to accurately simulate the effects of blood flow on the adhesion and retention of nanoparticle drug carriers.
Jul 10th, 2024
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Researchers demonstrate the first example of infrared quantum dots that are at the same level of quality as the ones that are in the visible spectrum.
Jul 9th, 2024
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Researchers review unconventional 2D nanopatterns, focusing on block molecule self-assembly. Combining bottom-up and top-down techniques, they advance nanofabrication limits.
Jul 9th, 2024
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Researchers have developed a way to blast the molecules in plastics and other materials with a laser to break them down into their smallest parts for future reuse.
Jul 9th, 2024
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Scientists are applying their expertise in physics, chemistry and computer modeling to create the next generation of computer chips, aiming for processes and materials that will produce chips with smaller features.
Jul 9th, 2024
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Researchers have introduced a pioneering approach to scrutinize the stochastic dynamics of micromechanical oscillators.
Jul 9th, 2024
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Scientists have shown that molybdenum disulfide exhibits ferromagnetic properties under certain conditions. When subjected to low temperatures and an external magnetic field, the electron spins in this material all point in the same direction.
Jul 9th, 2024
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A flexible nanoimprint lithography technique was applied to fabricate bioinspired microstructures on curved surfaces, which can significantly enhance the performance of III-nitride optoelectronic devices.
Jul 8th, 2024
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Researchers used origami principles to position sensors in 3D-bioprinted tissue models. An origami-inspired structure folds around tissue, enabling precise sensor placement.
Jul 8th, 2024
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Microscopic vehicles propelled by swimming green algae could assist biological and environmental research.
Jul 8th, 2024
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Utilizing hybrid bio-nanostructures can improve both performance and stability of electronic devices.
Jul 8th, 2024
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By composing an alloy made of silicon, germanium and tin, researchers were able to create a thermoelectric material, promising to transform the waste heat of computer processors back into electricity.
Jul 8th, 2024
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Researchers can now capture the inner workings of chemical reactions and material changes with high-speed electron cameras, achieving more accuracy and efficiency.
Jul 7th, 2024
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Engineers developed a device that efficiently converts heat into electricity at temperatures below outer space, aiding quantum computing advancements requiring ultra-low temperatures.
Jul 5th, 2024
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The technique used is an extension of atomic force microscopy and is a promising approach for visualizing various 3D biological systems.
Jul 5th, 2024
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