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Preparation method of cerium-doped lanthanum chlorobromide scintillating crystal

A technology of lanthanum chloride bromide and crystals, which is applied in the field of preparation of cerium-doped lanthanum chloride bromide scintillation crystals, can solve the problems of high raw material cost, high price, and different volatility, and achieve the effect of reducing raw material cost

Inactive Publication Date: 2011-11-02
CHINA JILIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

As far as the first method is concerned, although the crystal phases can be mixed more uniformly, the smallest particle size of the crystals is also on the order of microns, so the crystals of lanthanum chloride, lanthanum bromide, cerium chloride or cerium bromide It is still dispersed and does not dissolve each other to form a solid solution polycrystal; as for the second method, although the crystal phases have been melted at high temperature, the temperature of the molten crystal is usually only 100 ° C higher than the melting point. If the melting temperature is too high High, because the vapor pressure of each component is different, so the degree of volatilization is different, which will lead to changes in the components. In addition, because each crystal phase has a certain viscosity, the transport capacity of the components at a specific temperature is limited, so After the raw materials are melted at high temperature, it takes a long time to keep warm to achieve complete composition uniformity.
[0009] In addition, anhydrous high-purity lanthanum chloride, lanthanum bromide, cerium chloride and cerium bromide and lanthanum chloride heptahydrate LaCl with crystal water 3 ·7H 2 O, lanthanum bromide heptahydrate LaBr 3 ·7H 2 O, cerium chloride heptahydrate CeCl 3 ·7H 2 O and cerium bromide heptahydrate CeBr 3 ·7H 2 Compared with O, anhydrous lanthanum chloride, lanthanum bromide, cerium chloride and cerium bromide are extremely expensive, so the cost of raw materials for growing cerium-doped lanthanum chloride bromide solid solution single crystal is very high

Method used

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  • Preparation method of cerium-doped lanthanum chlorobromide scintillating crystal
  • Preparation method of cerium-doped lanthanum chlorobromide scintillating crystal
  • Preparation method of cerium-doped lanthanum chlorobromide scintillating crystal

Examples

Experimental program
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Effect test

Embodiment 1

[0022] Lanthanum chloride bromide doped with cerium La 0.95 Ce 0.05 (Br 0.97 Cl 0.03 ) 3 Preparation of solid solution single crystals.

[0023] Weigh LaBr with a purity higher than 99.99% 3 ·7H 2 O148.7 g, LaCl with a purity greater than 99.99% 3 ·7H 2 O3.57 grams, CeBr with a purity greater than 99.99% 3 ·7H 2 O8.10 grams, mix these raw materials into the attached figure 1 In the glass container 4 shown, add enough water to the glass container that the LaBr 3 ·7H 2 O, LaCl 3 ·7H 2 O and CeBr 3 ·7H 2 O is completely dissolved, automatically stirred with magnetic stirring for half an hour, then the magnetic stirring bar is taken out, and the glass container is respectively connected with a nitrogen bottle filled with high-purity nitrogen, a feeding port and a set of tail gas absorption device, through the feeding port Add SOCl in portions to the glass container 2 , so that SOCl 2 It reacts with all the water in the container, and the reaction product is gradu...

Embodiment 2-6

[0032] In Examples 2-6, the starting materials used are respectively LaBr with a purity higher than 99.99%. 3 ·7H 2 O, LaCl 3 ·7H 2 O, CeBr 3 ·7H 2 O or CeCl 3 ·7H 2 O, the raw material preparation and operation process are the same as in Example 1. The specific raw material composition, crystal growth process parameters and the single crystal size of the obtained rough crystal equal-diameter part are shown in Table 3.

[0033] table 3

[0034]

[0035] One sample was taken respectively from the top, middle and bottom of the crystal blank obtained in Example 4, and the content of chlorine, bromine and cerium in the three samples was analyzed by the method of Example 1. The specific results are shown in Table 4.

[0036] Table 4

[0037] Sample serial number

[0038] From the rough embryo crystal that embodiment 6 obtains, processing a size is 1 * 1 * 1mm 3 The X-ray excitation emission spectrum is tested after the single crystal is packaged, and the resu...

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Abstract

The invention discloses a preparation method of a cerium-doped lanthanum chlorobromide scintillating crystal. The crystal is a solid solution crystal with excellent scintillating performance; and the molecular formula of the crystal is CexLal-xClyBr3-y, wherein x is more than 0 and less than 1; y is more than 0 and less than 3. In the method disclosed by the invention, a related halide crystalline hydrate with low cost is used as an initial raw material to be dissolved in water and react with SOCl2 and water to obtain a high-purity CexLal-xClyBr3-y polycrystalline raw material with even components at the room temperature; and then the polycrystalline is used as the raw material for growing of a CexLal-xClyBr3-y single crystal by using a crucible descending method. The method can be used for obtaining the CexLal-xClyBr3-y scintillating crystal with even components at a lower cost.

Description

technical field [0001] The invention relates to a preparation method of cerium-doped lanthanum chloride bromide scintillation crystal, the chemical composition of the scintillation crystal is Ce x La 1-x Cl y Br 3-y , wherein 0<x<1, 0<y<3, specifically relates to the pretreatment of starting raw materials and crystal growth by crucible descent method, and belongs to the field of material preparation. Background technique [0002] Scintillation crystals can distinguish high-energy rays, and are widely used in nuclear radiation detection fields such as medical diagnosis (X-CT, PET, SPECT, etc.), safety inspection (container inspection, luggage inspection, etc.), oil well exploration (oil well detection probe), etc. [0003] An ideal scintillation crystal should have the characteristics of high density, high light output, fast decay, and stable physical and chemical properties, but it is difficult to have a scintillation crystal that can satisfy these characteris...

Claims

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Application Information

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IPC IPC(8): C30B11/00C30B29/12
Inventor 史宏声舒康颖秦来顺沈杭燕柴文祥郭驾宇黄岳祥
Owner CHINA JILIANG UNIV
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