Researchers are looking at a highly durable organic pigment, used by humans in artwork for hundreds of years, as a promising possibility as a semiconductor material.
Posted: Jun 5th, 2018
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The new method adds to the understanding of the fundamental laws governing the interaction of electrons and light.
Posted: Jun 5th, 2018
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New study shows elegant mathematical solution to understand how the flow of electrons changes when carbon nanotubes turn into zigzag nanoribbons.
Posted: Jun 5th, 2018
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Researchers have imaged the molecules present in oceanic dissolved organic carbon. This method allows marine scientists to look at the structure of individual molecules in deep ocean basins to gain a better understanding of the ocean carbon cycle.
Posted: Jun 5th, 2018
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How gold-doped polymer brushes become pH-sensitive.
Posted: Jun 5th, 2018
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Researchers have developed a nanojunction, joining one of the most promising novel 2D materials, molybdenum disulfide, with nickel.
Posted: Jun 5th, 2018
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Magnetoconductance controlled by spin-dependent band engineering.
Posted: Jun 5th, 2018
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Diseased cells such as metastatic cancer cells have markedly different mechanical properties that can be used to improve targeted drug uptake.
Posted: Jun 4th, 2018
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A recent study revealed that, besides serving as ligands to stabilize single-metal atoms, support also provide metal atoms that are vicinal to catalytic metal atoms and can directly participate in the activation of reactants, thus creating a significant vicinal effect for promoting catalysis of an atomically dispersed metal catalyst.
Posted: Jun 4th, 2018
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Reducing the wavelength of light could allow it to be absorbed or emitted by a semiconductor, study suggests.
Posted: Jun 4th, 2018
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Neural network could expedite complex physics simulations.
Posted: Jun 4th, 2018
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Confined, insensitive light could improve lasers, solar cells.
Posted: Jun 4th, 2018
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Topological randomness may be the answer for lossless electronics and making the nuts and bolts of quantum computers.
Posted: Jun 4th, 2018
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Nanoscale holes in graphene can selectively choose which type of air molecules can pass through.
Posted: Jun 4th, 2018
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Researchers introduce a mid-infrared biosensor based on a novel multi-resonant metasurface, which, for the first time, is able to distinguish multiple analytes in heterogeneous biological samples non-destructively, in real-time and with high sensitivity.
Posted: Jun 4th, 2018
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Researchers have demonstrated a facile wet-chemical method to directly grow organic-inorganic hybrid perovskite nanocrystals on surfaces of dispersible MoS2 nanosheets.
Posted: Jun 4th, 2018
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