期刊
CHEMISTRY OF MATERIALS
卷 30, 期 10, 页码 3552-3558出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.chemmater.8b01401
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资金
- Fonds der Chemischen Industrie (FCI)
The nitridosilicate La3-xCa1.5xSi6N11:Eu2+ (x approximate to 0.77) was synthesized in a radiofrequency furnace starting from LaF3, La(NH2)(3), CaH2, Si(NH)(2), and EuF3. The crystal structure was solved and refined from single-crystal X-ray data in the tetragonal space group P4bm (no. 100) with a = 10.1142(6), c = 4.8988(3) A, and Z = 2. Thereby, the so far unknown charge balance mechanism in the system (La,Ca)(3)Si6N11, which is necessary as bivalent Ca2+ substitutes trivalent La3+, was clarified. Accordingly, charge balance is achieved by incorporation of Ca2+ on three cation sites, including an additional third site compared to the homeotypic La3Si6N11 structure type. The results are supported by Rietveld refinement on powder X-ray diffraction data as well as energy-dispersive X-ray spectroscopy. Fourier transform infrared spectroscopy indicates absence of N-H bonds. An optical band gap of approximate to 4.0 eV was determined using UV/vis reflectance spectroscopy. The Eu2+ doped compound exhibits a remarkably narrow emission in the yellow-orange spectral range (lambda(em) 587 nm, fwhm approximate to 60 nm/1700 cm(-1)). Because of the intriguing yellow-orange luminescence, La3-xCa1.5xSi6N11:Eu2+ (x approximate to 0.77) is a promising candidate for application in next-generation amber phosphor-converted light emitting diodes.
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