DE859345C - Process for the production of a phosphor - Google Patents

Description

Process for the production of a luminescent substance Addition to patent 849188.1 In the patent 849 881 a process for the production of luminescent substances is described in which halophosphates of the composition 3 Me3 (P 04) 2 # i Met L2, which are divalent metals (Me, Mei), at least half of calcium or strontium, and halogens (L), also at least half of chlorine, fluorine or bromine or mixtures of these, or contain those components that lead to the formation of halophosphates of the composition mentioned, with the addition of activators :, the are at least partially antimony or antimony compounds, are subjected to a heat treatment. It. it has now been found that the process described in patent 849a8i can be used successfully with halophosphates in which antimony or antimony compounds are wholly or partially replaced by bismuth or bismuth compounds.

The bismuth activator comes with the halogen phosphates, or with the to these leading mixture components in a slightly larger amount as an additive to Use than is the case with the antimony activator. While in use 2 to 6% of antimony are preferred, the addition of bismuth is when there is no antimony is added to the mixture, preferably between 21/2 and 71/20%. Just like the introduction of manganese in the halophosphate activated by antimony is of great influence, it also changes with the bismuth-containing halophosphates either the fluorescent color of the light or increases its effectiveness. From the former or both: reasons, manganese is added to those activated by bismuth Halogen phosphates in o to 10 percent by weight.

Those made in patent 8.4.9 881. Findings regarding the in the alkaline earth metals and halogens contained in the halophosphates also occur the bismuth activated halophosphates to. The use of a significant A portion of barium appears to be even less beneficial than that of antimony activated phosphors.

The method described in patent 849881 can be used for the manufacture the bismuth activated halophosphates are used, the Bismuth can take the place of antimony in whole or in part. Is preferred Bismuth used as bismuth trioxide.

When using the mixing ratios given in patent 849 881 and treatment temperatures taking into account those peculiar to bismuth percentage addition, activated halophosphates are obtained, which in the following Composition under the excitation of radiation of 2537 A. These substances the added features can be recognized by the fluorescent color.

3 Approx. (P 04) 2. 1 Ca F2 -1- 71/2% Bi, this phosphor emits an almost white luminescent light; 3 Approx. (P04) 2. i Ca F2 + 30 / a Bi -1- i% Mn gives a yellowish light; 3 Ca. (P04) 2- i Ca C12 .-- 7 '/ 211/1) Bi -I- 3010 Mn there. a reddish light; 3 Approx. (P04) 2. x CaF2 + 71/2%, Bi -1- 30/0 Sb gives an almost white: light. The phosphors produced by the process according to the invention are preferably found in electrical. Devices that are able to excite the luminescence through radiation excitation, use.

Claims (2)

PATENT CLAIMS: i. Process for the production of a luminous, # tofi "es of the composition 3, 1-1e3 (P 04) 2. i M'el L., according to patent 849 881, characterized in that halophosphates, which are used instead of antimony or antimony compounds wholly or partly contain bismuth or bismuth compounds, are subjected to a heat treatment. 2. The method according to claim i, characterized in that the Mixture contains manganese or a manganese compound. 3: Method according to claim i and 2, characterized in that the - Me phosphate is a calcium or strontium phosphate is used. d .. The method according to claim 1, 2 or 3, characterized in that that the component MelL2 is a calcium or strontium fluoride. 5. Procedure according to Claim 2 or 3, characterized in that the manganese compound is manganese phosphate is used.