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Peculiar state of matter in layers of semiconductors

Peculiar state of matter in layers of semiconductors
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Rahul Nandkishore , Mingda Li , Normanc Rasmussen Assistant Professor Nuclear Science , University Of Colorado At Boulder , Neutron Scattering Program , Photon Source At Argonne National Lab , Advanced Photon Source , Argonne National Lab , Basic Energy Sciences , Neutron Scattering , பல்கலைக்கழகம் ஆஃப் கொலராடோ இல் கற்பாறை , நியூட்ரான் சிதறல் ப்ரோக்ர்யாம் , ஃபோட்டான் மூல இல் ஆர்கோன் தேசிய ஆய்வகம் , ஆர்கோன் தேசிய ஆய்வகம் , அடிப்படை ஆற்றல் அறிவியல் , நியூட்ரான் சிதறல் ,

The neutralizing antibody, LY-CoV555, protects against SARS-CoV-2 infection in nonhuman primates

Among the most promising therapeutic options for individuals with coronavirus disease 2019 (COVID-19) are monoclonal antibodies (mAbs). In this study, Jones et al . identified, characterized, and tested one such mAb, LY-CoV555, in vitro and in vivo. They found that LY-CoV555 bound to the severe acute respiratory distress syndrome coronavirus-2 (SARS-CoV-2) spike protein and prevented its interaction with angiotensin-converting enzyme 2. Prophylactic treatment with LY-CoV555 protected the upper and lower respiratory tracts of nonhuman primates from becoming infected with SARS-CoV-2. Together, these data support the clinical use of LY-CoV555 for treating patients with COVID-19.

Severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) poses a public health threat for which preventive and therapeutic agents are urgently needed. Neutralizing antibodies are a key class of therapeutics that may bridge widespread vaccination campaigns and offer a treatment solution in populations le ....

South Africa , United States , United Kingdom , K Huntington Eli Lilly , Gatan Solarus , Isoplates Perkinelmer , Eli Lilly , Oxford Cryosystems , Carterra Epitope , Us Department Of Defense , National Institute Of Allergy , Grossman School Of Medicine Startup , Lilly Research Laboratories Collaborative Access Team , Burroughs Wellcome Fund Postdoctoral Enrichment Program Award , Us Department Of Energy , International Patent Application No , Electron Microscopy Sciences , Office Of Science , Committee Of Bioqual Inc , Argonne National Laboratory , Centers For Disease , European Union Horizon , Laboratory Animals , Abcellera Biologics Inc , National Institutes Of Health , P Sipahimalani Abcellera Biologics Inc ,

Squeezing a rock-star material could make it stable enough for solar cells

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IMAGE: Scientists at SLAC National Accelerator Laboratory and Stanford University discovered that squeezing a promising lead halide material in a diamond anvil cell (left) produces a so-called black perovskite (right).
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Credit: Greg Stewart/ SLAC National Accelerator Laboratory
Among the materials known as perovskites, one of the most exciting is a material that can convert sunlight to electricity as efficiently as today s commercial silicon solar cells and has the potential for being much cheaper and easier to manufacture.
There s just one problem: Of the four possible atomic configurations, or phases, this material can take, three are efficient but unstable at room temperature and in ordinary environments, and they quickly revert to the fourth phase, which is completely useless for solar applications. ....

United States , Hemamala Karunadasa , Thomas Devereaux , Wendy Mao , Chunjing Jia , Nature Communications , Department Of Energy , Stanford Institute For Materials , Photon Source At Argonne National Laboratory , Light Source At Lawrence Berkeley National Laboratory , Energy Sciences , Office Of Science , Stanford University , National Energy Research Scientific Computing Center , National Accelerator Laboratory , Accelerator Laboratory , Stanford Institute , Stanford Professor , Professor Hemamala Karunadasa , Advanced Photon Source , Argonne National Laboratory , Advanced Light Source , Lawrence Berkeley National , ஒன்றுபட்டது மாநிலங்களில் , தாமஸ் டெவெரீஸ் , வெண்டி மாவோ ,

Elastic motion makes click beetles click, study finds

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Elastic motion makes click beetles click, study finds
Illinois researchers Aimy Wissa, Marianne Alleyne and Ophelia Bolmin studied the motion of a click beetle’s jump and present the first analytical framework to uncover the physics behind ultrafast motion by small animals.
Photo by L. Brian Stauffer
CHAMPAIGN, Ill. Click beetles can propel themselves more than 20 body lengths into the air, and they do so without using their legs. While the jump’s motion has been studied in depth, the physical mechanisms that enable the beetles’ signature clicking maneuver have not. A new study examines the forces behind this super-fast energy release and provides guidelines for studying extreme motion, energy storage and energy release in other small animals like trap-jaw ants and mantis shrimps. ....

United States , University Of Illinois , Beckman Institute , Alison Dunn , Kamel Fezzaa , Aimy Wissa , Marianne Alleyne , L Brian Stauffer , Ophelia Bolmin , John Socha , Carle Illinois College Of Medicine , Beckman Institute For Advanced Science , National Academy Of Science , University Of Illinois Urbana Champaign , Photon Source At Argonne National Laboratory , Us Department Of Energy , Illinois Urbana Champaign , National Academy , Virginia Tech , Advanced Photon Source , Argonne National Laboratory , Carle Illinois College , Advanced Science , ஒன்றுபட்டது மாநிலங்களில் , பல்கலைக்கழகம் ஆஃப் இல்லினாய்ஸ் , பெக்மேன் நிறுவனம் ,

Latch, load and release: Elastic motion makes click beetles click, study finds

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IMAGE: Illinois researchers Aimy Wissa, Marianne Alleyne and Ophelia Bolmin studied the motion of a click beetle s jump and present the first analytical framework to uncover the physics behind ultrafast motion.
view more
Credit: Photo by L. Brian Stauffer
CHAMPAIGN, Ill. Click beetles can propel themselves more than 20 body lengths into the air, and they do so without using their legs. While the jump s motion has been studied in depth, the physical mechanisms that enable the beetles signature clicking maneuver have not. A new study examines the forces behind this super-fast energy release and provides guidelines for studying extreme motion, energy storage and energy release in other small animals like trap-jaw ants and mantis shrimps. ....

United States , University Of Illinois , Beckman Institute , Alison Dunn , Kamel Fezzaa , Aimy Wissa , Marianne Alleyne , Ophelia Bolmin , John Socha , Carle Illinois College Of Medicine , Beckman Institute For Advanced Science , National Academy Of Science , University Of Illinois Urbana Champaign , Photon Source At Argonne National Laboratory , Us Department Of Energy , Illinois Urbana Champaign , National Academy , Virginia Tech , Advanced Photon Source , Argonne National Laboratory , Carle Illinois College , Advanced Science , Biomechanics Biophysics , Technology Engineering Computer Science , Mechanical Engineering , ஒன்றுபட்டது மாநிலங்களில் ,