PL241785B1 - Method for producing confined solid solution phases doped with ytterbium(III) ions - Google Patents

Abstract

The subject of the application is a method of producing phases of the restricted solid solution type doped with ytterbium(III) ions of the general formula Pb1-3x[]xYb2xWO4 or Pb1-3x[]xYb2x(MoO4)1-3x(WO4)3x, where 0 < x ≤ 0, 0283, and [] means vacancies in the crystal lattice, according to the application, consisting of mixing, homogenization, heating and cooling, characterized in that lead(II) tungstate(VI) in an amount greater than or equal to 97.0 mol%, and less than 100.00 mol% is mixed with ytterbium(III) tungstate(VI) in an amount greater than or equal to 0.00 mol% and less than or equal to 3.00 mol%, or lead(II) molybdate(VI) in an amount greater than or equal to 97.00 mol% and less than 100.00 mol% is mixed with ytterbium(III) tungstate(VI) in an amount greater than 0.00 mol% and less than or equal to 3.00 mol%. The mixtures are calcined at 850 to 980°C, then cooled to give a product of the general formula Pb1-3x[]xYb2xWO4 or Pb1-3x[]xYb2x(MoO4)1-3x(WO4)3x.

Description

Description of the invention

The subject of the invention is a method for the production of confined solid solution phases doped with ytterbium(III) ions. These phases can be used in optoelectronics as crystal lasers or as scintillation materials.

From the Polish patent description PL 235245 there are known solid solution phases doped with f-electron metal ions, which is europium(III). The new phases are described by the general formula Pbi-3χΠχEu2x(MoO4)i-3x(WO4)3x, where 0 < x< 0.1970, and □ means vacancies in the crystal lattice. There is also known a method of producing solid solution phases with limited solubility of components in a two-component system of europium(III) tungstate(VI) and lead(II) molybdate(VI), which consists in mixing, homogenizing, heating and cooling and is characterized by the fact that lead(II) molybdate(VI) in an amount greater than or equal to 67.50 mol% and less than 100.00 mol% is mixed with europium(III) tungstate(VI) in an amount greater than 0.00 mol% and less than 100.00 mol% than or equal to 32.50 mole %. The mixtures are calcined at 900 to 985°C, then cooled to give a product of the general formula Pb1-3χΠχEu2x(MoO4)i-3x(WO4)3x, where 0 < x < 0.1970 and □ is lattice vacancy. Preferably, mixtures of lead(II) molybdate(VI) and europium(III) tungstate(VI) are calcined in six stages, 12 hours each, and after each stage of heating the sample is slowly cooled down to ambient temperature and triturated.

From the Polish description of the invention P.417242 there are known new phases of the type of limited solid solutions doped with rare earth metal ions, which are characterized by the fact that the rare earth metal is neodymium with the general formula Pb1-3xDxNd2xWO4 or Pb1-3xDxNd2x(MoO4)1-3x(WO4 )3x, where 0 < x < 0.2000, and □ is a lattice vacancy. From this invention, there is also known a method for producing new phases of the type of limited solid solutions doped with rare earth metal ions, consisting in mixing, homogenizing, heating and cooling, characterized in that lead(II) tungstate(VI) in an amount greater than or equal to 66, 67 mol% and less than 100.00 mol% is mixed with neodymium(III) tungstate(VI) in an amount greater than 0.00 mol% and less than or equal to 33.33 mol%, and lead molybdate(VI) (II) in an amount greater than or equal to 66.67 mol% and less than 100.00 mol% is mixed with neodymium(III) tungstate(VI) in an amount greater than 0.00 mol% and less than or equal to 33.33 mole %. The mixtures are calcined at 900 to 995°C, then cooled to give a product of the general formula Pb1-3xNd2xWO4 where 0<x<0.2000 or Pb1-3xDxNd2x(MoO4)1-3x(WO4 )3 x, where 0 < x < 0.2000 and □ is a vacancy in the crystal lattice.

Preferably, mixtures of lead(II) tungstate(VI) with neodymium(III) tungstate(VI) and lead(II) molybdate(VI) mixture with neodymium(III) tungstate(VI) are calcined in seven stages, 12 hours each, at whereupon, after each heating step, the samples are slowly cooled to ambient temperature and triturated.

Confined solid solution phases doped with ytterbium(III) ions are known from the conference report entitled "Homogeneity range and thermal stability of new scheelite type materials doped with Er ³⁺ and Yb ³⁺ ions" presented during the international conference: 11th International ^Seminar on Thermal Analysis and Calorimetry to the memory of Prof. st. Bretsznajder, 26-29 September 2016, Płock, Poland. The conference announcement can be found in the book of abstracts - Book of abstracts, p. 124. The authors of the announcement are the creators of the invention, i.e. Magdalena Piątkowska (currently Maciejkowicz) and Elżbieta Tomaszewicz. Confined solid solution phases doped with ytterbium(III) ions are characterized by the general formula Pb1-3 xDxYb2 xWO4 or Pb1-3 xDxYb2 x (MoO4)1-3 x (WO4)3 x, where 0 < x < 0.0283, and □ means vacancies in the crystal lattice.

Method of producing phases of the restricted solid solution type doped with ytterbium(III) ions, with the general formula Pb1-3 xDxYb2 xWO4 or Pb1-3 xDxYb2 x (MoO4)1-3 x (WO4)3 x, where 0 < x < 0.0283, a means vacancies in the crystal lattice, according to the invention, consisting in mixing, homogenizing, heating and cooling, characterized in that lead(II) tungstate(VI) in an amount greater than or equal to 97.00 mol% and less than 100.00 % mole is mixed with ytterbium(III) tungstate(VI) (Yb2(WO4)3) in an amount greater than 0.00 mol% and less than or equal to 3.00 mol%, or lead(II) molybdate(VI) in an amount greater than or equal to 97.00 mol% and less than 100.00 mol% is mixed with ytterbium(III) tungstate(VI) in an amount greater than 0.00 mol% and less than or equal to 3.00 mol%. The mixtures are calcined at 850 to 980°C, then cooled to give a product of the general formula Pb1-3xxYb2xWO4 or Pb1-3xxYb2x(MoO4)1-3x(WO4)3x.

PL 241 785 B1

Preferably, mixtures of lead(II) tungstate(VI) with ytterbium(III) tungstate(VI) and mixtures of lead(II) molybdate(VI) with ytterbium(III) tungstate(VI) are calcined in eight stages, 12 hours each, at whereupon, after each heating step, the samples are slowly cooled to ambient temperature and triturated.

Confined solid solution phases with the general formula Pbi-3xDxYb2xWO4 or Pbi-3xDxYb2x(MoO4)i-3x(WO4)3x, whose exemplary formulas and unit cell parameters are listed in tables 1 and 2, are stable in the solid state of aggregation up to a temperature of at least 1000 °C. The new phases crystallize in the tetragonal system and have a schite-like structure.

The subject of the invention is presented in the embodiment examples.

PbWO4 and Yb2(WO4)3 are mixed in mole %, the compositions of which are given in Table 1, and PbMoO4 and _Yb2 (WO4 _{)3 in} mole %, whose compositions are given in Table 2. The mixtures are homogenized by grinding and then is calcined in air in eight steps, with the samples slowly cooled to ambient temperature after each step and then ground. PbW04 and Yb2(WO4)3 or PbMoO4 and Yb ₂ (WO ₄ ) ₃ samples were annealed in the following stages:

- in the first stage, the samples are calcined at 850°C for 12 hours,

- in the second stage, the samples are calcined at 875°C for 12 hours,

- in the third stage, the samples are calcined at 900°C for 12 hours,

- in the fourth stage, the samples are calcined at 925°C for 12 hours,

- in the fifth stage, the samples are calcined at 950°C for 12 hours,

- in the sixth and seventh stages, the samples are calcined at 975°C for 12 hours,

- in the eighth step, the samples are calcined at 980°C for 12 hours.

Table 1

no. x mole % Pbi.3xD type phase pattern _A Yb2 _l WO ₄ Parameter a [run] c-parameter [nm] PbWO ₄ YbXWO ₄ )3 1 0.0050 99.50 0.50 Pbo,98soOo,oo5oYbo,oiooW04 0.546129 1.20476 2 0.0098 99.00 1.00 Pbo,970«Oo,009sYbo,0196W04 0.545978 1.20420 3 0.0192 98.00 2.00 Pbo,94240o,0192Ybo,1)3 84WO4 0.545627 1.20307 4 0.0238 97.50 2.50 Pbo,92860a,023sYbo,0476W04 0.545480 1.20253 5 0.0283 97.00 3.00 Pbo,91510o,0283Ybo,0566W04 0.545328 1.20202

Table 2

no. x mole % Pbi type phase pattern. _3i L YbjjMuOi) ir/W Ο ₄ ) ₃ χ Parameter a [run] c-parameter [nm] PbMoO ₄ Yb ₂ (WO ₄ ) ₃ 1 0.0050 99.50 0.50 Pbo,985o0o,0050Ybo, 810o(Mo04)o,985c(W04)fl,0150 0.543826 1.2115 2 0.0098 99.00 1.00 Pb0.9706 D0.009sYb0.0196( _MoO4 )0.970æ(WO4)0.0294 0.543683 1.21058 3 0.0192 98.00 2.00 Pbo _! 94240o,0192Ybo,U3S4(Mo04)o _s 9424(W04)o,OS76 0.543540 1.20978 4 0.0238 97.50 2.50 Pb0.9286 00.0238Yb0.0476(MoO4)0.9286(WO4)0.0714 0.543352 1.20924 5 0.0283 97.00 3.00 Pbo,915lDo,0283Ybo.(l5fi6( _Mo04 )o,9151(W04Xo849) 0.543220 1.20863

Phase synthesis of restricted solid solutions doped with ytterbium(III) ions, described by the general formula Pbi-3xDxYb2xWO4 or Pbi-3xDxYb2x(MoO4)i-3x(WO4)3x, where 0 < x < 0.0283, and □ means vacancy in the crystal lattice from mixtures of PbWO4 and Yb2(WO4)3 or PbMoO4 and Yb ₂ (WO ₄ ) ₃ compounds are presented in the following reaction equations:

(1-3x) PbWO ₄ + x Yb ₂ (WO ₄ ) ₃ = Pbi-3xDxYb ₂ x WO4 (1-3x) PbMoCU + x Yb ₂ (WO ₄ ) ₃ = Pbi.3xDxYb ₂ x(MoO4)i-3x( WO4)3x

Claims (2)

1. A method of producing phases of restricted solid solutions doped with ytterbium(III) ions of the general formula Pbi-3 _Χ Π _Χ Yb2xWO4 or Pbi-3 _Χ Π _Χ Yb2x(MoO4)i-3x(WO4)3x, where 0 < x < 0 .0283, and □ means vacancies in the crystal lattice, consisting of mixing, homogenization, heating and cooling, characterized in that lead(II) tungstate(VI) in an amount greater than or equal to 97.00 mol% and less than 100.00 % mol is mixed with ytterbium(III) tungstate(VI) in an amount greater than or equal to 0 mol % and less than or equal to 3.00 mol %, or lead(II) molybdate in an amount greater than or equal to 97.00 mol % and less than 100.00 mol% are mixed with ytterbium(III) tungstate(VI) in an amount greater than 0.00 mol% and less than or equal to 3.00 mol%, and the mixtures are calcined at a temperature of 850 to 980°C, then cooled to give a product of the general formula Pb1-3 xDxYb2 xWO4 or Pb1-3 xDxYb2 x (MoO4)1-3 x (WO4)3 x. 2. The method of claim 1, characterized in that the mixture of lead(II) tungstate(VI) with ytterbium(III) tungstate(VI) or lead(II) molybdate(VI) with ytterbium(III) tungstate(VI) is calcined in eight stages, 12 hours each, with the samples slowly cooled to ambient temperature and triturated after each heating step.