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Journal of Materials Chemistry C, 2021
A series of dysprosium Dy–HOFs with high resistance to strong acids and strong alkalis have been constructed. The above Dy–HOFs show the “turn on” behavior of solid-state fluorescence under acid stimulation.
Jin-Mei Peng +5 more
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A series of dysprosium Dy–HOFs with high resistance to strong acids and strong alkalis have been constructed. The above Dy–HOFs show the “turn on” behavior of solid-state fluorescence under acid stimulation.
Jin-Mei Peng +5 more
semanticscholar +1 more source
Journal of Phase Equilibria and Diffusion, 1993
The Dy-Sn phase diagram in [Massalski2] was updated by [1993Oka] primarily based on the works of [1983Che] and [1992Ere]. The [1993Oka] diagram was updated further by [1995Oka] as [1993Pal] investigated systematic trends of RE-Sn systems in the range 60-100 at.% Sn. The dashed line in Fig. 1 shows liquidus boundaries of the [1995Oka] diagram.
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The Dy-Sn phase diagram in [Massalski2] was updated by [1993Oka] primarily based on the works of [1983Che] and [1992Ere]. The [1993Oka] diagram was updated further by [1995Oka] as [1993Pal] investigated systematic trends of RE-Sn systems in the range 60-100 at.% Sn. The dashed line in Fig. 1 shows liquidus boundaries of the [1995Oka] diagram.
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Magnetic structures of dysprosium oxysulfide and dysprosium oxyselenide
Solid State Communications, 1974Abstract The magnetic structures of Dy 2 O 2 S and Dy 2 O 2 Se have been determined by neutron diffraction experiments at 1.5 K. For these two antiferromagnetic compounds the magnetic unit cell is orthohexagonal and doubled along the c-axis. The antiferromagnetic direction is parallel to the c-axis; the values of the Dy 3+ magnetic moment in Dy 2 O ...
Y. Abbas +3 more
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10-W-level monolithic dysprosium-doped fiber laser at 3.24 μm.
Optics Letters, 2019We report, to the best of our knowledge, the first entirely monolithic dysprosium (Dy)-doped fluoride fiber laser operating in the mid-IR region. The system delivers 10.1 W at 3.24 μm in continuous operation, a record for fiber oscillators in this range ...
V. Fortin +4 more
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Hydrometallurgy, 2016
Abstract Biotechnological approaches have gained significant attention as a means to recover rare earth elements from acidic mine drainage and industrial liquid wastes. We recently isolated an acidophilic fungus, Penidiella sp. strain T9, that accumulates dysprosium (Dy) from acidic model drainage during growth.
Takumi Horiike +2 more
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Abstract Biotechnological approaches have gained significant attention as a means to recover rare earth elements from acidic mine drainage and industrial liquid wastes. We recently isolated an acidophilic fungus, Penidiella sp. strain T9, that accumulates dysprosium (Dy) from acidic model drainage during growth.
Takumi Horiike +2 more
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, 2019
Waste electrical and electronic equipments (WEEE or e-waste) are an important source for rare earth elements (REEs). Among various type of WEEE, NdFeB magnets are known for their high content of neodymium (Nd) and dysprosium (Dy).
C. Erust +4 more
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Waste electrical and electronic equipments (WEEE or e-waste) are an important source for rare earth elements (REEs). Among various type of WEEE, NdFeB magnets are known for their high content of neodymium (Nd) and dysprosium (Dy).
C. Erust +4 more
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Dysprosium Resonance Integrals
Nuclear Science and Engineering, 1964A revised value for the infinitely dilute absorption resonance integral of natural dysprosium is given; experimental values for the separate isotopes are also given. Revision of NSA, 17: 3780. (R.E.U.)
J. J. Scoville, E. Fast, D. W. Knight
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Dysprosium Iron Garnet Thin Films with Perpendicular Magnetic Anisotropy on Silicon
Advanced Electronic Materials, 2019Magnetic insulators, such as the rare‐earth iron garnets, are promising materials for energy‐efficient spintronic memory and logic devices, and their anisotropy, magnetization, and other properties can be tuned over a wide range through selection of the ...
J. Bauer +8 more
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Journal of Materials Science: Materials in Electronics, 2021
G. Sathiyapriya +5 more
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G. Sathiyapriya +5 more
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Journal of Physical Chemistry A, 2019
Dysprosium(III) ions are the third most luminescent lanthanide(III) ions. Dy(III) is used as dopant in optical fibers and as shift reagent in NMR imaging and is the element at the forefront of research in single-molecule magnets. Nonetheless, the excited
Nicolaj Kofod +2 more
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Dysprosium(III) ions are the third most luminescent lanthanide(III) ions. Dy(III) is used as dopant in optical fibers and as shift reagent in NMR imaging and is the element at the forefront of research in single-molecule magnets. Nonetheless, the excited
Nicolaj Kofod +2 more
semanticscholar +1 more source