Science

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A Planet Hotter Than Most Stars

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Graphene and quantum dots put in motion a CMOS-integrated camera that can see the invisible

Over the past 40 years, microelectronics have advanced by leaps and bounds thanks to silicon and CMOS (Complementary metal-oxide semiconductors) technology, making possible computing, smartphones, compact and low-cost digital cameras, as well as most of the electronic gadgets we rely on today.

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Graphene-quantum dots-CMOS-based sensor for ultraviolet, visible and infrared.

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Collapsing Star Gives Birth to a Black Hole

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ALMA Eyes Icy Ring around Young Planetary System

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Hubble Spots Moon Around Third Largest Dwarf Planet

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Oxford Instruments Asylum Research and Microscopy and Analysis Present the Webinar: “Video-Rate Atomic Force Microscopy Enables New Research Opportunities”

Oxford Instruments Asylum Research in conjunction with Microscopy and Analysis will present the webinar “Video-Rate Atomic Force Microscopy (AFM) Enables New Research Opportunities”. Dr. Mario Viani, Director of R&D at Asylum Research, will present new results for scientists interested in exploring video-rate AFM for characterizing biochemical reactions, self–assembly, crystal growth, and other future research opportunities.

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Observatories Combine to Crack Open the Crab Nebula

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Discovery of new transparent thin film material could improve electronics and solar cells: Conductivity is highest-ever for thin film oxide semiconductor material

A team of researchers, led by the University of Minnesota, have discovered a new nano-scale thin film material with the highest-ever conductivity in its class. The new material could lead to smaller, faster, and more powerful electronics, as well as more efficient solar cells.

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A team of researchers, led by the University of Minnesota, have discovered a new nano-scale thin film material with the highest-ever conductivity in its class.

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'Hot' electrons don't mind the gap: Rice University scientists find nanogaps in plasmonic gold wires enhance voltage when excited

If they're quick about it, "hot" electrons excited in a plasmonic metal can tunnel their way across a nanoscale gap to a neighboring metal. Rice University scientists said the cool part is what happens in the gap.

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Rice University scientists discovered that 'hot' electrons can create a photovoltage about a thousand times larger than ordinary temperature differences in nanoscale gaps in gold wires. On the left, a laser-heated, bowtie-shaped plasmonic gold nanowire created a small voltage in the wire. On the right, a gold nanowire with a nanogap under the same light source showed a much stronger voltage at the break.

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A Lot of Galaxies Need Guarding in This NASA Hubble View

Power of Massive Galaxy Cluster Harnessed to Probe Remote Galaxies in Early Universe

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