DE1467467A1 - Artificial phosphor and process for its manufacture - Google Patents

Description

"Delicious Luminous Material" and Process for Its Manufacture "Die The present invention relates to an artificial phosphor for 3n electrical use Gas discharge lamps, in cathode ray tube screens or in X-ray screens and a method for producing this phosphor. As is well known is, phosphors usually consist of a base material in which a suitable Activator is embedded. Phosphors made from oxides have already been described or silicates of the alkaline earth metals exist as the base material and which have an additive contain europium as an activator. Also in the literature about with furopium activated sulfides, the alkaline earth metals_and their luminosity with suitable Suggestion reported.

It has now been found that particularly useful phosphors are obtained when yttrium oxide is activated with europium (III) oxide. The amount of de * Europium (III) oxide added to yttrium oxide should be between 3 and $ mol%. Particularly good results are obtained at a concentration of 4 Mbl%.

To produce a phosphor according to the invention, a mixture of yttrium oxide and. Europium oxide annealed, whereby in the starting mixture in place of the oxides can also occur to those compounds which when heated produce the oxides, such as carbonates. During the preparation of the new phosphor , the annealing temperature for the ; Mixture of starting materials exceed 15000C. However, the melting temperature should not be reached or exceeded: The most favorable annealing temperature reads between 16Q0 and 1650 ° G. During the (Gihens should be at the mixture in a sealed vessel. However, it can be annealed in forming gas. The specified Gltihtemperaturen and annealing the europium is built exclusively in its trivalent form in the crystal lattice of Yttriumoxyds.

The phosphor according to the invention can z.8. be excited to glow with short-wave ultraviolet radiation, such as that provided by the low-pressure mercury discharge. As the curve of the spectral distribution of the emission of the phosphor Y203 # 0.04Eu203 when excited with the mercury resonance line 253.7 nm shows, the phosphor emits a narrow-band spectrum in the range from 590 nm to 710 nm, where- with a particularly strong maximum of the emission at 615 nm. The quantum yield measured on the phosphor according to the invention is 70% compared to that of the magnesium tungstate. When the temperature rises, the intensity of the emission only decreases more sharply above 450 ° C. The phosphor therefore shows very good temperature stability.

The following is an example of making a phosphor given with the composition Y203 # 0.04Eu203 according to the invention.

35.8 g of Y2 (Cp3) 3 1.4 g of Eu203 are intimately mixed with one another and annealed four times for one hour each time in a stream of forming gas at around 16300C. Mix thoroughly between the individual anneals.

The new phosphor obtained can, if appropriate, be used mixed with other phosphors in electric gas discharge lamps . 3o was the luminous efficacy of a low pressure mercury discharge lamp that rendered on the inner wall of an applied coating in a known manner from the new phosphor * i determined with 30 lw /. A burning time drop of 956 was measured after an operating time of 1000 hours.

Claims (1)

Claims ' Artificial phosphor, characterized in that it is made of yttrium oxide stands, which is activated with europium (III) oxide. 2. phosphor according to claim 1, characterized in that the concentration des europium (IIT) oxide. in yttrium oxide between 3 and 8, especially 4 mol% amounts to. 3. Process for the production of an artificial luminescent material: s according to patent claim 1 or? _, Characterized in that a mixture of yttrium oxide or of those compounds which give yttrium oxide when heated, with luropium (III) - oxide or with compounds that produce europium (III) oxide when heated give, in a closed vessel at a Tf- # mper-ature above 1500 ° C is glowing: 4. Process for the production of an artificial luminescent material according to patent claim 1 or 2, characterized in that a mixture of yttrium oxide or of such compounds, which give yttrium oxide on heating, with europium (iii) - oxide or with compounds that produce europium (III) oxide when heated give, at a temperature above 1500 ° C, preferably at 1630 ° C, in is annealed in a stream of forming gas.