SU827521A1 - Charge for producing sulfide luminophores - Google Patents

Description

one

The invention relates to a phosphor technique, in particular, blend compositions for the preparation of pink sulphide-based phosphors or a mixture of zinc sulphides and cadmium, used for the manufacture of luminescent coatings of electron-beam devices.

A known charge for the preparation of sulfide phosphors based on ZnS and CdS, including CuS04, A1Cl3-21 20 and BaCl2.

To obtain the corresponding mixture from this mixture, its phosphor is calcined in two stages at 900-1200 ° C in the atmosphere of carbon disulfide and inert gas.

However, the phosphor obtained from the known mixture has a low luminosity and contains 67% of particles larger than 20 microns.

In addition, the afterglow of the phosphor is more than 1.5% after 40-10 seconds after stopping the cathode excitation at a density j of 0.2 µA / cm, which is unacceptable when used in kinescopes for color television.

Also known is a mixture for producing sulfide phosphors based on zinc sulfide or its mixture with cadmium sulfide, containing an activator, coactivator, organic matter and alkali or alkaline earth metal sulfates or their mixture, respectively, in the following amounts, wt. %: 0.004-1.0; 0.3-0.5; 0.3- 0.5 and 0.001-0.1 2.

The disadvantage of such a mixture is also the relatively low brightness of the phosphor, which is about 107% relative to the standard K-83 phosphor. In addition, the resulting phosphor contains up to 30% of particles less than 4 microns in size, which makes it difficult to use in screens due to the strong agglomeration of particles.

The aim of the invention is to increase

the brightness of the sulfide phosphor and improvement of its particle size distribution.

This goal is achieved by the fact that the charge for obtaining sulfide phosphors based on zinc sulfide or its mixture with cadmium sulfide, including the above described components of the known charge, additionally contains ammonium iodide or a metal iodide selected from

groups containing sodium, zinc or magnesium, in the following ratio of weight components. %:

Activator0,004-0,02

Coactivator0,004-0,03

Organic matter 0.1-3.0

Alkali sulphates

or alkaline earth

metals or their

mix0,001-1,0

Ammonium iodide or

metal iodide

a specified group of 0.001 -1.0 Zinc sulfide or

its mixture with cadmium sulfide Else

Sulfide phosphor from such a mixture is prepared as follows.

The mixture prepared from these components is mixed by a wet method for 30-60 minutes, dried at 100 ° C for 15 hours and cooled. Next, add 3 wt. % sulfur and calcined at 900 ° C for 1 h, and then at 1050 ° C for

2 hours. After that, the resulting phosphor is subjected to surface treatment using the generally accepted method.

The mixture according to the invention makes it possible to obtain a sulfide phosphor with an increased brightness of about 110-116% relative to the K-83 phosphor and a more uniform particle size distribution, characterized by the following distribution of particles in fractions,%:

0-4 µm2-10

0-6 micron 42-52

0-10 microns90-95

0-14 µm99-100

The following table presents data on the brightness, particle size distribution, chromaticity of sulfide phosphors, and obtained from the proposed mixture of several specific compositions. Note. The amount of activator CuSO and metal: C and A1.

Claims (2)

1. US Patent No. 3704232, cl. 252-301.6, publ. 1971. 2. USSR author's certificate of application No. 2560535, cl. From 09K 11/14, 1977. the coactivator A12 (5O4) is given in terms of