• Introducing the new Materials Advances “Perovskites” article collection

    Updated: 2021-03-25 16:55:45
    We are delighted to share with you a new collection of articles highlighting some of the most recent articles in Materials Advances on ‘Perovskites’. With a wide range of applications, perovskites are any materials with a similar crystal structure to a perovskite mineral, which is usually lead or tin halide-based.  Containing both reviews and original […]

  • Blog Helix Magazine

    Updated: 2021-03-21 22:23:47
    Skip to main content Helix Magazine Connecting Science to You Main menu Home About Features SCI Q A In the News Blog Topics Search form Search You are here Home Blog Blog Dear Lab Notebook By : Sarah Anderson September 5, 2019 As a graduate student getting my PhD in chemistry , I†m expected to keep a laboratory notebook . It†s where I document what I do each day : the aim of the experiment , the conditions I use and the . Read more A Colorful Job By : Rebecca Harmon April 25, 2019 As I stand in an emerald green room beneath a windmill in Zaanse Schans , Netherlands , wearing a canvas smock and disposable gloves , I am front-row to a demonstration of how artists traditionally made . Read more Uncovering a Hidden Picasso By : Victoria Cooley February 19, 2019 It†s a Friday morning in

  • Newspaper Special Sections The San Diego Union-Tribune

    Updated: 2021-03-21 22:23:28
    News Local Sports Business Entertainment Lifestyle Opinion Hot Property Today†s Paper Subscriptions Manage Subscription EZPay Delivery Issue eNewspaper Subscribe Subscriber Terms Manage Subscription EZPay Delivery Issue eNewspaper Subscribe Subscriber Terms About Us Contact us Our Journalism Explained Newsletters Readers Rep Careers 2021 Events Historical Archives Podcasts and Livestreams U-T Store Contact us Our Journalism Explained Newsletters Readers Rep Careers 2021 Events Historical Archives Podcasts and Livestreams U-T Store Advertising Place an ad Media kit Rate card Report an ad problem Cars Classifieds Eldercare Directory Jobs Newspaper Ad Directory Newspaper Special Sections Real Estate Sponsored Stats Digital Place an ad Media kit Rate card Report an ad problem Cars

  • Tohoku University team demonstrates spintronics p-bit

    Updated: 2021-03-19 14:23:13
    Skip to main content Home About us Spintronics Introduction Companies MRAM History Advertise here More Home Tohoku University team demonstrates spintronics p-bit Tohoku University team demonstrates spintronics p-bit Tohoku University researchers have developed a technology for the nanosecond operation of the spintronics-based probabilistic bit p-bit referred to as the poor man's quantum bit q-bit The late physicist R.P . Feynman envisioned a probabilistic computer : a computer that is capable of dealing with probabilities at scale to enable efficient computing . Using spintronics , our latest technology made the first step in realizing Feynman's vision , said Shun Kanai , professor at the Research Institute of Electrical Communication at Tohoku University and lead author of the . study

  • Scientists design the smallest cable containing a spin switch

    Updated: 2021-03-14 09:01:41
    Skip to main content Home About us Spintronics Introduction Companies MRAM History Advertise here More Home Scientists design the smallest cable containing a spin . Scientists design the smallest cable containing a spin switch Researchers from the Madrid Institute for Advanced Studies in Nanoscience IMDEA and the University of Sevilla have measured for the first time the electrical conductivity of a single carbon nanotube with spin-crosslinked molecules inside . it Iron-based SCO molecules encapsulated in a single carbon nanotube . Credit : Nature Communications Magnetic molecules could add a new twist to conventional electronics . In particular , spin-crossover SCO molecules belong to a family of zero-dimensional 0D functional units that display a radical spin switch triggered by an

  • Chiral-induced spin selectivity enables room-temperature spin LEDs

    Updated: 2021-03-14 07:20:52
    Skip to main content Home About us Spintronics Introduction Companies MRAM History Advertise here More Home Chiral-induced spin selectivity enables room . Chiral-induced spin selectivity enables room-temperature spin LEDs A team of researchers from the National Renewable Energy Laboratory NREL and the University of Utah has developed a new type of LEDs that utilizes spintronics without needing a magnetic field , magnetic materials or cryogenic . temperatures The companies that make LEDs or TV and computer displays don’t want to deal with magnetic fields and magnetic materials . It’s heavy and expensive to do it , said Valy Vardeny , distinguished professor of physics and astronomy at the University of Utah . Here , chiral molecules are self-assembled into standing arrays , like soldiers ,

  • Researchers map the electronic spins in a working MOS2 transistor

    Updated: 2021-03-07 08:53:20
    Skip to main content Home About us Spintronics Introduction Companies MRAM History Advertise here More Home Researchers map the electronic spins in a working MOS2. . Researchers map the electronic spins in a working MOS2 transistor An international research team , led by the University of Tsukuba , has used electron spin resonance ESR to monitor the number and location of unpaired spins going through a molybdenum disulfide transistor . ESR uses the same physical principle as the MRI machines that create medical images . The spins are subject to a very strong magnetic field , which creates an energy difference between electrons with spins aligned and anti-aligned with the field . The absorbance of photons that match this energy gap can be measured to determine the presence of unpaired

  • Researchers induce “artificial magnetic texture” in graphene

    Updated: 2021-03-01 13:56:21
    Skip to main content Home About us Spintronics Introduction Companies MRAM History Advertise here More Home Researchers induce artificial magnetic texture” in . Researchers induce artificial magnetic texture” in graphene An international research team , led by the University at Buffalo , has reported an advancement that could help give graphene magnetic properties . The researchers describe in their work how they paired a magnet with graphene , and induced what they describe as artificial magnetic texture” in the nonmagnetic material . This achievement may , according to the researchers , push forward the spintronics . field The image shows eight electrodes around a 20-nanometer-thick magnet white rectangle and graphene white dotted line Credit : University at . Buffalo Independent of each

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Feb 2021