SU445347A1 - A method of producing photoluminophores that convert infrared radiation into visible radiation based on metal fluorides - Google Patents

Description

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The invention relates to the field of the manufacture of intensive photoluminescent phosphors emitting in the red, yellow and green regions of the spectrum during IR irradiation (/ 930 nm).

Such phosphors are intended to convert infrared radiation into visible and can be used in display devices and in the creation of vacuum-free aiogov receiving televisions x tubes.

A known method of producing photoluminescent phosphors converting infrared radiation into visible, based on metal fluorides, and for example alkaline-earth elements activated by Er, Yb -f Er, Yb + But, consists of nanofilding of the composed P1.

However, with the known method, it is observed that the excitation spectrum of the known phosphors of a practically uniform band of bands is observed with /..ma;;755 nm; low brightness of luminescence when excited by longer-wave infrared light (1520 nm) and one-throat spectral characteristics /..a. 540 nm.

The proposed synthetic process differs from the known one in that metal fluorides are used as the base and zinc subunits, for example zinc, cadmium, or mixtures thereof.

This ensures the expansion of the range of phosphors in the excitation and emission spectra.

For phosphors based on (ZnCd) PsEg, hollow cores are dominant, and /; с1525 nm; for phosphors (ZnCd) Fo-Hr-Yb. In the excitation spectrum, there is a redistribution of the 1P1 intensity of the bands in favor of a short-wave c /. 975 nm.

The luminophores obtained by the proposed method (ZnCd) P2-EgL have a high luminosity (110%) and can be used to create compositions with white color of radiation.

The proposed method involves the use of fluorides with a total, her formula (Zn 1 -,., Cd,.) F2, where, 2, the introduction of erbium in the amount of 1-20 at. % to produce red phosphors with an emission color excited in the region of 1500; introduction

Erby in the amount of 0.1-20 at.

/ o and itter1-20 at. % for polubibi - in the number of lulgipofor with yellow color pzluchsn and.

Example 1. To 5 g of ZnO was added 3.6 ml of a 30% aqueous solution of Yb (X03) 3 and 2.1 ml of a 5% aqueous solution of Er (Koz) 3, thoroughly mixed, and dried at 120-130 ° C. To higher