Red-emitting K 3 HF 2 WO 2 F 4 :Mn 4+ for application in warm-white phosphor-converted LEDs - optical properties and magnetic resonance characterization

We report novel efficient Mn4+ phosphors of composition K3HF2MO2F4:Mn4+ (M = Mo, W) containing [HF2]- and octahedral [MO2F4]2- building units. The phosphor exhibits strong absorption at 450 nm and an external quantum yield of 90%. K3HF2WO2F4:0.01Mn4+ provides a sufficiently high quenching temperatur...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2019-04, Vol.48 (16), p.5361-5371
Main Authors: Jansen, Thomas, Funke, Lena Marie, Gorobez, Jürgen, Böhnisch, David, Hoffmann, Rolf-Dieter, Heletta, Lukas, Pöttgen, Rainer, Hansen, Michael Ryan, Jüstel, Thomas, Eckert, Hellmut
Format: Article
Language:English
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Summary:We report novel efficient Mn4+ phosphors of composition K3HF2MO2F4:Mn4+ (M = Mo, W) containing [HF2]- and octahedral [MO2F4]2- building units. The phosphor exhibits strong absorption at 450 nm and an external quantum yield of 90%. K3HF2WO2F4:0.01Mn4+ provides a sufficiently high quenching temperature T1/2 of about 400 K and is applicable as a converter for (In,Ga)N LEDs. The EPR spectrum is consistent with the presence of a MnF62- species at giso = 1.983. 19F MAS NMR results confirm the 2 : 1 ratio of the metal-bound fluoride species to the hydrogen difluoride group as predicted from the chemical formula. There are two distinct M-bonded species in a 1 : 1 ratio, indicating that the W and Mo octahedra are exclusively of the MO2F42- type, with the two oxygen atoms in cis-position. Their extremely sharp 19F resonances indicate a fast, near-isotropic reorientational process at room temperature that is on the millisecond timescale. For the HF2- group, the 19F and 1H MAS NMR spinning sideband profiles reveal the geometry of a linear centrosymmetric three-spin system with an H-F bond distance of 1.14 Å.
ISSN:1477-9226
1477-9234
DOI:10.1039/c9dt00091g