CN1951820A

CN1951820A - Non-center-symmetrical structure rare earth sulfide

Info

Publication number: CN1951820A
Application number: CN 200510118211
Authority: CN
Inventors: 曾卉一; 郭国聪; 黄锦顺; 郑发鲲
Original assignee: Fujian Institute of Research on the Structure of Matter of CAS
Current assignee: Fujian Institute of Research on the Structure of Matter of CAS
Priority date: 2005-10-20
Filing date: 2005-10-20
Publication date: 2007-04-25

Abstract

非中心对称结构稀土硫化物，涉及La₆Ag₂Sn₂S₇、La₆Ge_2x+2S₁₄、La₆Sn_2x+2S₁₄ (x＝1/4－1/2)化合物的合成、晶体生长及应用。采用高温固相反应制备前体并通过碱金属卤化物助熔剂技术合成并生长。该硫化物晶体用于制作红外非线性光学元件。Rare earth sulfides with non-centrosymmetric structure, involving the synthesis of La ₆ Ag ₂ Sn ₂ S ₇ , La ₆ Ge _2x+2 S ₁₄ , La ₆ Sn _2x+2 S ₁₄ (x=1/4－1/2) compounds, Crystal growth and applications. The precursor is prepared by high temperature solid state reaction and synthesized and grown by alkali metal halide flux technology. The sulfide crystal is used for making infrared nonlinear optical element.

Description

Non-centrosymmetry structure rare-earth sulfide

Technical field

The present invention relates to La ₆Ag ₂Sn ₂S ₇, La ₆Ge _2x+2S ₁₄, La ₆Sn _2x+2S ₁₄(x=1/4-1/2) synthetic, the crystal growth of compound and application

Background technology

The infrared non-linear optical material can be used for making frequency doubling device, and the broadband is adjustable infrared parametric oscillator carries out the range finding of mixing and optical parametric oscillation and infrared remote, has been widely used at aspects such as laser communications and military technique and infrared telemetrys.In recent years, along with CO ₂Technology rapid development such as lidar detection, infrared telemetry, laser communications, infrared navigation, more and more urgent to the requirement of high quality, high-performance infrared non-linear optical material.

Chalcogen compound makes them become the elite clone of long wave transmission in the characteristic absorbance of low-frequency range.Chalcogenide materials has and extends to far optical clear characteristic.Many useful sulfide materials have from the transmission window of 0.5 to 14um scope.The chalcogen compound of no core structure can be used as the second-order non-linear optical materials that uses at region of ultra-red, and is especially interesting.Had been found that many chalcogen compounds of taking the non-centrosymmetry spacer at present, the sulfide material of some nonlinear optical properties, for example, AgGaS ₂, LiInS ₂, LiGaQ ₂(Q=S, Se Te) are familiar with by people.

The desirable properties of nonlinear optical material comprises big non-linear susceptibility, transparent, the high light injury threshold of (using ω and 2 ω for frequency multiplication) in the work area, machinery, chemistry, thermostability and be easy to mix and processing.And rare earth chalcogen compound has excellent thermostability, intensity and infrared transmission characteristic, and therefore non-centrosymmetrical rare earth chalcogen compound may become the second order infrared non-linear optical material of the new excellent performance of a class.

R ₆B ₂C ₂Q ₁₄(Q=S is that a space-like group is P6 Se) ₃Rare earth chalcogen compound, R is a rare earth element, B is generally the hexa-coordinate metallic element, C is the four-coordination element.This compounds is synthesized by people such as Guittard at first.In many cases, the general molecular formula of this class is R ₆B ₂C ₂Q ₁₄Compound because positively charged ion, anionic charge equilibrated need, exist the room.Defective compound known today has following composition R ₆(B _n _2-n) C ₂Q ₁₄, is the room, n=1/2,2/3,1 and 4/3.

Summary of the invention:

We select rare-earth elements La, and four-coordination element Ge or Sn prepare precursor and synthetic and 3 the new sulfide La that grown by alkali metal halide fusing assistant technology by high temperature solid state reaction ₆Ag ₂Sn ₂S ₁₄, La ₆Ge _2x+2S ₁₄, La ₆Sn _2x+2S ₁₄(x=x=1/4-1/2) crystal.La ₆Ge _2x+2S ₁₄, La ₆Sn _2x+2S ₁₄(x=1/4-1/2) be the defective compound, in their crystalline structure, the position of C is occupied by Ge (IV) or Sn (IV), and the position of B can be occupied by Ge (II), Ge (IV) or Sn (II), Sn (IV), and their molecular formula can be written as La ₆Ge _2xGe ₂S ₁₄, La ₆Sn _2xSn ₂S ₁₄(x=1/4-1/2).

La ₆Ag ₂Sn ₂S ₇: spacer is P6 ₃(No.163), cell parameter is a=b=10.378 (2) , c=5.990 (1) , Z=1, unit-cell volume V=558.7 (2)  ³

La ₆Ge _2x+2S ₁₄(x=1/4-1/2): spacer is P6 ₃(No.163), cell parameter is a=b=10.297 (2) , c=5.812 (1) , Z=2, unit-cell volume V=533.7 (2)  ³

La ₆Sn _2x+2S ₁₄(x=1/4-1/2): spacer is P6 ₃(No.163), cell parameter is a=b=10.277 (2) , c=6.003 (1) , Z=2, unit-cell volume V=549.1 (2)  ³

Sulfide La provided by the invention ₆Ag ₂Sn ₂S ₁₄, La ₆Ge _2x+2S ₁₄, La ₆Sn _2x+2S ₁₄(x=1/4-1/2) crystal prepares precursor by high temperature solid state reaction and is that fusing assistant carries out crystal growth with the alkali metal halide.The optional KBr of fusing assistant, NaBr, KCl, NaCl.

In the high temperature solid state reaction process, raw material is warming up to 900-1200 ℃, after constant temperature, mixture fully react, is cooled to room temperature naturally.With the alkali metal halide is fusing assistant, utilizes the aforementioned precursor for preparing to carry out crystal growth, is warming up to more than the fusing assistant fusing point, behind the long-time constant temperature, and cooling naturally.

Non-centrosymmetrical rare earth chalcogen compound may become the second order infrared non-linear optical material of the new excellent performance of a class.The sulfide La of the present invention's preparation ₆Ag ₂Sn ₂S ₁₄, La ₆Ge _2x+2S ₁₄, La ₆Sn _2x+2S ₁₄(x=1/4-1/2) crystal can be used for making infrared non-linear optics element.

Embodiment

1.La ₆Ag ₂Sn ₂S ₁₄

Under the high pure nitrogen atmosphere protection, press La ₂S ₃: Ag ₂S: SnS ₂=3: 1: 2 mol ratio takes by weighing 0.13584g (mmol) La ₂S ₃, 0.03g (mmol) Ag ₂S, 0.4422g (mmol) SnS ₂, compressing tablet after grinding, mixing in the silica tube of the end of packing into sealing, seals with oxyhydrogen flame under dynamic vacuum subsequently.This reaction tubes is placed in the high temperature reaction stove, and be warming up to 750 ℃ with the speed of 20 ℃/hr, constant temperature was warming up to 1000 ℃ with identical speed after 24 hours, and constant temperature 240 hours is to allow mixture fully react.Turn off power supply, be cooled to room temperature naturally.Take out reaction tubes, take out reaction tubes, after opening reaction mixture is ground with 0.80g KBr, mix, then this precursor/fusing assistant mixture is resealed in the silica tube that vacuumizes.This reaction tubes is placed in the high temperature reaction stove, and be warming up to 850 ℃ with the speed of 15 ℃/hr, constant temperature is after 15 days, is cooled to 650 ℃ with the speed of 1.5 ℃/hr, turns off power supply, is cooled to room temperature naturally.Take out reaction tubes, after opening reaction mixture is soaked in distilled water, filter, hand goes out red granular crystal.Analyze through the X ray single crystal diffraction, determine that red granular crystal is La ₆Ag ₂Sn ₂S ₁₄EDX analysis revealed crystal only contains La, Ag, Sn, S, does not detect K, Br.

2.La ₆Ge _2x+2S ₁₄(x＝1/4-1/2)

Under the high pure nitrogen atmosphere protection, press La ₂S ₃: Al: Ge: S=1: 2: 2: 7 mol ratio takes by weighing 0.1039g (0.278mmol) La ₂S ₃, 0.15g (0.556mmol) Al, 0.4037g (0.556mmol) Ge, 0.0624g (1.946mmol) S, compressing tablet after grinding, mixing in the plating carbon silica tube of the end of packing into sealing, and adds a spot of iodine, seals with oxyhydrogen flame under dynamic vacuum subsequently.This reaction tubes is placed in the high temperature reaction stove, and be warming up to 700 ℃ with the speed of 18 ℃/hr, constant temperature was warming up to 1000 ℃ with identical speed after 24 hours, and constant temperature 10 days is cooled to 640 ℃ with the speed of 2 ℃/hr, turns off power supply, is cooled to room temperature naturally.Take out reaction tubes, after opening reaction mixture is ground with 0.80g NaBr, mix, then this precursor/fusing assistant mixture is resealed in the silica tube that vacuumizes.This reaction tubes is placed in the high temperature reaction stove, and be warming up to 850 ℃ with the speed of 15 ℃/hr, constant temperature is after 10 days, is cooled to 700 ℃ with the speed of 1.5 ℃/hr, turns off power supply, is cooled to room temperature naturally.Take out reaction tubes, after opening reaction mixture is soaked in distilled water, filter, hand goes out the granular crystal of garnet.Analyze through the X ray single crystal diffraction, determine the granular La of being of garnet ₆Ge _2x+2S ₁₄(x=1/4-1/2).EDX analysis revealed crystal only contains La, Ge, S, does not detect other elements such as Na, Al, Br, I.

3.La ₆Sn _2xSn ₂S ₁₄(x＝1/4-1/2)

Under the high pure nitrogen atmosphere protection, press La ₂S ₃: Na ₂S: SnS ₂=3: 1: 2 mol ratio takes by weighing 0.2874g (0.768mmol) La ₂S ₃, 0.02g (0.256mmol) Na ₂S, 0.0936g (0.512mmol) SnS ₂, compressing tablet after grinding, mixing in the plating carbon silica tube of the end of packing into sealing, seals with oxyhydrogen flame under dynamic vacuum subsequently.This reaction tubes is placed in the high temperature reaction stove, and be warming up to 750 ℃ with the speed of 5 ℃/hr, constant temperature is after 80 hours, is warming up to 1000 ℃ with the speed of 10 ℃/hr, and constant temperature 6 days is cooled to 380 ℃ with the speed of 2.87 ℃/hr, turns off power supply, is cooled to room temperature naturally.Take out reaction tubes, after opening reaction mixture is ground with 0.80g NaBr, mix, then this precursor/fusing assistant mixture is resealed in the silica tube that vacuumizes.This reaction tubes is placed in the high temperature reaction stove, and be warming up to 830 ℃ with the speed of 12.4 ℃/hr, constant temperature is after 8 days, is cooled to 700 ℃ with the speed of 2 ℃/hr, turns off power supply, is cooled to room temperature naturally.Take out reaction tubes, after opening reaction mixture is soaked in distilled water, filter, hand goes out reddish brown granular crystal.Analyze through the X ray single crystal diffraction, determine that black granular crystal is La ₆Sn _2xSn ₂S ₁₄(x=1/4-1/2).EDX analysis revealed crystal only contains La, Sn, S, does not detect Na, Br.

Claims

1. Rare earth sulfide with non-centrosymmetric structure, characterized in that: the chemical formula of the sulfide is La ₆ Ag ₂ Sn ₂ S ₇ , the space group is P6 ₃ (No.163), and the unit cell parameter is a=b=10.378 (2 ) , c=5.990(1) , Z=1, unit cell volume V=558.7(2) ³ .

2. Rare earth sulfide with non-centrosymmetric structure, characterized in that: the chemical formula of the sulfide is La ₆ Ge _2x+2 S ₁₄ (x=1/4-1/2), and the space group is P6 ₃ (No.163), The unit cell parameters are a=b=10.297(2) Ȧ, c=5.812(1) Ȧ, Z=2, and the unit cell volume V=533.7(2) Ȧ ³ .

3. Rare earth sulfide with non-centrosymmetric structure, characterized in that: the chemical formula of the sulfide is La ₆ Sn _2x+2 S ₁₄ (x=1/4-1/2), and the space group is P6 ₃ (No.163), The unit cell parameters are a=b=10.277(2) Ȧ, c=6.003(1) Ȧ, Z=2, and the unit cell volume V=549.1(2) Ȧ ³ .

4. A method for preparing a sulfide crystal according to claim 1, 2 or 3, characterized in that: the precursor is prepared by high-temperature solid-state reaction and the crystal is grown with an alkali metal halide as a flux.

5. The use of the sulfide crystal according to claim 1, 2 or 3, characterized in that: the crystal is used for making infrared nonlinear optical elements.