Scattering-free lanthanide-ionic liquid scintillators for high-resolution and adaptive X-ray imaging. [PDF]
Nat CommunQiu J +10 more
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Liquid metal dispersed single-atom catalyst with high-temperature stability. [PDF]
Nat CommunZeng Z +14 more
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Visualization of four-dimensional X-ray absorption fine structure data using a virtual reality system. [PDF]
J Synchrotron RadiatIgarashi H +5 more
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Magnetically tunable selectivity in methane oxidation enabled by Fe-embedded liquid metal catalysts. [PDF]
Nat NanotechnolZhang H +18 more
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ZrO<sub>2</sub>-induced d-d spatial coordination effects of Ru single-atom catalysts to boost the oxygen evolution reaction. [PDF]
Chem SciYu D +9 more
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How Buffer Ions Shape Hydrogen Evolution at Non-extreme pH: Operando Insights into Cu-Mo Electrocatalyst Surface Dynamics. [PDF]
ACS Appl Mater InterfacesNishimoto T +9 more
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Hydrazine Intercalation into 2D MoTe<sub>2</sub> Field Effect Transistor as Charge Trapping Sites for Nonvolatile Memory Applications. [PDF]
Nanomaterials (Basel)Yuan L +6 more
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Decoding Performance-Limiting Local Descriptors in Complex Energy Materials. [PDF]
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X-ray excited optical luminescence (XEOL) detection of x-ray absorption fine structure (XAFS)
Journal of Chemical Physics, 1998The x-ray excited optical luminescence (XEOL) from a variety of rare-earth ions was used as a detection mode for the collection of L-edge x-ray absorption fine-structure (XAFS) data. In order to understand the source of the observed optical signal, advantage is taken of the known luminescent response of f ions in a variety of transparent host materials.
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