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    Important Ferromagnetic Semiconductor Synthesized

    November 24, 2017, Categories  Physics, Technology/Electronics, Chemistry/Nanotechnology

    Structure of the hollow Eu(III)-benzoate nanotubes. a) SEM image; scale bar = 400 nm. b) TEM image; scale bar = 100 nm. A magnified image is given in Figure S2 in the Supporting Information. c) PXRD data. (') indicates signals corresponding to the lamellar substructure. Black curve = experiment pattern obtained from the hybrid material. Blue curve = simulated pattern with the structure model presented in (d). Blue = Eu; red = oxygen; dark gray = carbon; light gray = hydrogen; yellow = cell edges of monoclinic Eu2O3.

    Structure of the hollow Eu(III)-benzoate nanotubes. a) SEM image; scale bar = 400 nm. b) TEM image; scale bar = 100 nm. A magnified image is given in Figure S2 in the Supporting Information. c) PXRD data. (‘) indicates signals corresponding to the lamellar substructure. Black curve = experiment pattern obtained from the hybrid material. Blue curve = simulated pattern with the structure model presented in (d). Blue = Eu; red = oxygen; dark gray = carbon; light gray = hydrogen; yellow = cell edges of monoclinic Eu2O3.

    University of Konstanz has developed a method for synthesising Europium (II) oxide nanoparticles – a ferromagnetic semiconductor that is relevant for data storage and data transport...

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