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Researchers Have a New Twist on Asymmetric Catalysis
Researchers at Osaka and Iwate Medical University developed an efficient and simple chemical synthesis of a new kind of twisted helicene molecule containing a ...
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2017
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Seeing the Next Dimension of Computer Chips
Japanese researchers used a scanning tunneling microscope to image the side-surfaces of 3D silicon crystals for the first time. The pictures, captured with ...
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2017
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Highly accurate calculation method for electronic configurations of magnetic molecules will lead to the development of molecular spintronics devices
A group of researchers led by Osaka University, Mie University, and the University of Wisconsin-Milwaukee, succeeded in developing a first principles ...
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2017
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Osaka University Chemists Unlock the Potential of Fluoroalkenes
Osaka University-led chemists developed a copper-catalyzed reaction for replacing fluorine atoms with an easily transformable boronate group on polyfluorinated ...
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2017
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Osaka University Rolls the Dice on Perovskite Interfaces
Osaka University-led researchers developed a robust Monte Carlo-based refinement computerized approach to precisely and accurately model perovskite oxide ...
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2017
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Breaking the Chain: Catalyzing a Green Future for Chemistry
A Japanese research team from Osaka University developed “green” catalysis for creating valuable chemicals from plant waste. By reacting a catalyst with ...
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2017
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Development on Muon Beam Analysis of Organic Matter in Samples from Space
Osaka University-led researchers demonstrate a non-destructive muon-based analysis methods for determining the composition of carbon-containing asteroid ...
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2017
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A Radical Approach to Methane Oxidation into Methanol
A pair of researchers at Osaka University converted methane into valuable chemicals. The reaction occurs under ambient conditions in a novel two-phase system. ...
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2017
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Growing Organs a Few Ink Drops at a Time
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2017
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Ultrathin black phosphorus for solar-driven hydrogen economy
Osaka University researchers combined two different types of 2D materials—black phosphorus and bismuth vanadate—to form a biologically inspired water-splitting ...
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2018
