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Deposition of advanced phosphor coatings by flame spray pyrolysis

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Deposition of advanced phosphor coatings by flame spray pyrolysis

Roman Kubrin (Autor)

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Inhaltsverzeichnis, Datei (43 KB)
Leseprobe, Datei (110 KB)

This thesis is devoted to a study of flame aerosol deposition (FAD) of advanced phosphor coatings. FAD combines synthesis of phosphor particles by flame spray pyrolysis with their deposition onto a substrate in a single processing step. Y2O3:Eu phosphor was chosen as the main test material.
The mean particle size of the phosphor powder produced by droplet-to-particle conversion (DPC) of aqueous solutions of rare earth nitrates could be varied in the range 180 – 500 nm. It was found that the screens deposited from concentrated precursor solutions ( ~ 0.5 µm) achieved the brightness of the standard screens made of commercial phosphor powder ( ~ 3.5 µm). At the same time, the coating density corresponding to the maximum light emission in the transmission mode for excitation at 254 nm could be substantially reduced (0.5 vs. 2.0 mg/cm2). In the range of vacuum UV, performance of the phosphor was strongly influenced by the roughness of the particle surface. It was demonstrated that smooth Y2O3:Eu phosphor particles could be synthesized in the premixed propane/air flames by adding polymerizable organic components to the precursor solution. Alternatively, phosphor particles with improved surface morphology could be obtained by substitution of nitrate salts in the precursor solution with Y2O3:Eu nanoparticles.
As opposed to Y2O3:Eu, particles of amorphous Y3Al5O12:Tb phosphor prepared by the standard DPC-FAD had nearly perfect morphology. It could be suggested that crystallization of the phosphor host during the residence time of particles in the flame is responsible for the roughness of their surface. Screens of Y2O3:Eu nanophosphor ( = 24 nm) were deposited by chemical vapor deposition (CVC-)FAD from the precursor solution prepared by dissolving rare earth nitrates in ethanol and 2-ethylhexanoic acid. The optimal screen density for excitation at 254 nm was 1.2 mg/cm2; the maximum transmission-mode luminescence intensity reached approximately one third of that of the commercial reference. The light scattering in the visible range was reduced by up to two orders of magnitude. As a result, the nanophosphor coatings maintained nearly constant brightness in a very wide range of coating densities. It was demonstrated that light reflection from the supporting substrate and porosity of the coating significantly influence its photoluminescent performance.
It can be expected that compacted nanophosphor coatings excited in the VUV-range could facilitate the diffraction-limited resolution of the displayed images. Rapidness of the screen deposition should be emphasized as the major common advantage of both modifications of FAD.

ISBN-13 (Printausgabe) 3954040190
ISBN-13 (Printausgabe) 9783954040193
ISBN-13 (E-Book) 9783736940192
Sprache Englisch
Seitenanzahl 196
Umschlagkaschierung glänzend
Auflage 1 Aufl.
Band 0
Erscheinungsort Göttingen
Promotionsort Hamburg-Harburg
Erscheinungsdatum 20.02.2012
Allgemeine Einordnung Dissertation
Fachbereiche Physik
Maschinenbau und Verfahrenstechnik