DE3314970A1 - Process for preparing a luminous substance - Google Patents

Abstract

It is proposed to decrease the reflecting power of luminous substance particles by means of pyrolytically applied carbon.

Description

description

Method of making a phosphor The present invention relates to a method for producing a phosphor, in particular for cathode ray tubes, its individual phosphor particles on their surface with a dark, solid adhesive occupancy are provided.

It has already been proposed to increase the contrast of fluorescent screens of cathode ray tubes the reflectivity of the individual phosphor particles to reduce thereby that the surface of the phosphor particles with a dark Assignment to be provided. It has proven to be particularly advantageous if this assignment is gray or regardless of the emission color of the leek substance is trained black.

It is known1 to apply a filter layer to the phosphor particles prove that preferentially allows light of the emission color of the phosphor to pass through. Such pigmented phosphors are usually wet-chemically with such Allocations provided, which is felt to be disadvantageous that it often clumps together the phosphor particles takes place.

The present invention is based on the object of a novel Specify a method for applying a dark coating to phosphor particles.

This object is achieved according to the invention in that the assignment made by thermal decomposition of organic substances with carbon will.

A major advantage of the method described is that that the pyrolytically applied carbon coating on the phosphor surface is very high glit adheres and does not tend to agglomerate several phosphor grains. A Another advantage is that the phosphor particles provided with a carbon coating are hydrophilic and can therefore be processed well in different application processes permit. The carbon coating is applied by pyrolytic deposition, d. H. by thermal decomposition of an organic material with the phosphor grains is brought into contact. A preferred organic material is polyvinylpyrrolidone. This organic material is in powder form with the phosphor, which is also in powder form mixed and heated to about 4000C in a f) oven.

In the process, the fluorescent powder particles are finely separated on the surface distributes carbon, which adheres very well. This is when further processing c.ler with carbon-coated phosphors do not take undue caution with regard to them for a flaking off of the carbon slip (required lng.

Claims (3)

Claims 1. A method for producing a phosphor, in particular for cathode ray tubes, their individual fluorescent particles on their surface are provided with a dark, firmly adhering coating 'characterized by that the occupation by thermal decomposition of organic substances with carbon is made. 2. The method according to claim 1, characterized. That as organic Substance polyvinylpyrrolidone is used. 3. The method according to claim 1 or claim 2, characterized in that that the phosphor particles are mixed with the organic substance and then this mixture to temperatures between 150 ° C. and 6000 ° C., preferably 250 ° C. to 5000C, especially el: wa 400 ° C, #chitzt is.