CN1810654A

CN1810654A - Coprecipitation process of preparing relation base niobate ferroelectric powder

Info

Publication number: CN1810654A
Application number: CN 200610057988
Authority: CN
Inventors: 朱满康; 唐剑兰; 侯育冬; 钟涛; 宋雪梅; 王波; 汪浩; 严辉
Original assignee: Beijing University of Technology
Current assignee: Beijing University of Technology
Priority date: 2006-03-03
Filing date: 2006-03-03
Publication date: 2006-08-02
Anticipated expiration: 2026-03-03
Also published as: CN1321901C

Abstract

The present invention belongs to the field of dielectric ceramic material technology. The co-precipitation process includes: calcining the mixture of Nb2O5 and KOH in the molar ratio of 1 to 8 at 340-380 for 1-2 hr, dissolving in deionized water, titrating with nitric acid to pH value of 2-3 to obtain precipitate, separating and dissolving in oxalic acid solution through stirring to obtain Nb containing oxalic acid solution A; titrating the solution A with ammonia water to pH value of 10-11, separating and washing to obtain precipitate B; dissolving the precipitate B in nitric acid solution and adding Pb(NO3)2 and nitrate of M in the stoichiometric amount of the ultimate compound Pb(M, Nb)O3; dropping oxygen peroxide solution in the molar amount of 1-10 times Nb and stirring to obtain precursor solution C; regulating the pH value of solution C to 10-13 with ammonia water or diethyl amine as precipitant to obtain precipitate D; and centrifuging, washing, drying and calcining to obtain Pb(M, Nb)O3 powder.

Description

The co-precipitation preparation method of relaxation base niobate ferroelectric powder

Technical field

The present invention relates to a kind of coprecipitation method for preparing the relaxation base niobate ferroelectric powder, belong to the preparing technical field of dielectric ceramic material.

Background technology

Relaxor based ferroelectrics has the performance more better than common ferroelectrics, as high specific inductivity, low relatively sintering temperature, fast etc. by the low temperature coefficient of capacitance of disperse phase transformation decision, big electrostrictive effect and small strain hysteresis and zero restoring ability and favorable reproducibility, response, thereby be widely used in many fields, obtained the concern of investigator and industry member.Niobium iron acid lead Pb (Fe _1/2Nb _1/2) O ₃, lead scandate columbate Pb (Sc _1/2Nb _1/2) O, niobium nickel lead plumbate Pb (Ni _1/3Nb _2/3) O ₃And lead magnoniobate Pb (Mg _1/3Nb _2/3) O ₃Deng being typical leaded relaxation base niobate ferroelectric.Prepare the higher calcining temperature of leaded relaxation base niobate ferroelectric needs with traditional solid reaction process, be difficult to obtain the powder of pure perovskite phase, and particle size distribution is inhomogeneous.

Liquid chemical method can overcome the deficiency of traditional solid reaction process to a certain extent, reduces the temperature and time of synthetic leaded relaxation base niobate ferroelectric, reduces energy consumption.As the coprecipitation method of one of liquid chemical method, be the optional method of synthetic high-purity multi-component material, can when guaranteeing the stoichiometric ratio of prepared material, its chemical composition be evenly distributed.During the synthetic leaded relaxation base niobate ferroelectric powder of liquid chemical method, normal compound niobium source of adopting comprises niobium chloride (NbCl ₅), niobium alkoxides ((C _nH _2n+1O) ₅Nb) etc.But there is certain shortcoming: NbCl separately in they ₅Can cause residual chloride thing impurity in the final product, influence the electrical property of ceramic body, produce deleterious HCl gas in addition in the building-up process, be unfavorable for environment protection; Niobium alkoxides is usually used in hydrothermal method or sol-gel method craft, has good solubility, and still, it costs an arm and a leg, and very easily hydrolysis, is difficult for preserving, and promotes the use of to have difficulties in industry.

Summary of the invention

The objective of the invention is with Niobium Pentxoxide (Nb ₂O ₅) be converted on the basis of solubility niobium salt, provide the co-precipitation preparation method of the leaded relaxation base niobate ferroelectric powder of the simple perovskite structure of a kind of production technique, to obtain to have the relaxation base niobate ferroelectric powder of pure perovskite structure, the tiny homogeneous of particle diameter.

The co-precipitation preparation method of relaxation base niobate ferroelectric powder of the present invention is characterized in that, may further comprise the steps:

(1) with mol ratio is 1: 8 Nb ₂O ₅-KOH mixture is dissolved in deionized water through the product that 340-380 ℃ of calcining 1-2h obtains; Then with nitric acid titration pH value to 2-3, produce white precipitate; The white precipitate of centrifugation gained also is dissolved in oxalic acid solution, and what obtain clear after the stirring contains niobium oxalate solution A;

(2) be 10-11 with niobium oxalate solution A to the pH value that contains that obtains in the ammonia water titration step 1, obtain white depositions B through centrifugation and deionized water wash;

(3) white depositions B is dissolved in the salpeter solution that concentration is 2-4mol/l, and by final compound Pb (M, Nb) O ₃Stoichiometric ratio, add Pb (NO ₃) ₂And and final compound Pb (M, Nb) O ₃The nitrate of corresponding metal ions M, wherein M is divalence or trivalent metal ion, comprises Mg ²⁺, Ni ²⁺, Sc ³⁺, Fe ³⁺Simultaneously, dropping is equivalent to niobium molar weight 1-10 hydrogen peroxide doubly, stirs 10-30min, obtains transparent clarifying precursor solution C;

(4) with ammoniacal liquor or diethylamine as precipitation agent, the pH value of regulating precursor solution C obtains coprecipitated product D to 10-13;

(5) with the centrifugal collection of above-mentioned gained coprecipitated product D, use deionized water wash, after 80-100 ℃ of drying,, obtain final compound Pb (M, Nb) O of uhligite phase at 800-900 ℃ of calcining 1-4h ₃Powder.

The present invention adopts more cheaply, the Nb of easier acquisition ₂O ₅Replace NbCl ₅Or niobium alkoxides, by simple chemical conversion process, obtain containing the niobium salpeter solution, thereby greatly reduce the production cost of the leaded relaxation base niobate ferroelectric powder of preparation.Coprecipitation method provided by the invention can be used to prepare multiple relaxation base niobate ferroelectric powder, comprises Pb (Mg _1/3Nb _2/3) O ₃, Pb (Ni _1/3Nb _2/3) O ₃, Pb (Sc _1/2Nb _1/2) O ₃Or Pb (Fe _1/2Nb _1/2) O ₃Deng.Simple with respect to the solid phase method production technique, coprecipitation method provided by the invention has reduced one-tenth phase temperature and calcination time, and products therefrom has pure perovskite phase structure and homogeneous particle diameter.This powder has high specific inductivity and lower dielectric loss, can be used for as all kinds of ceramic condensers of preparation, as laminated ceramic capacitor, monolithic capacitor etc.

Description of drawings

Fig. 1 is powder x-ray diffraction (XRD) collection of illustrative plates of different products.Used instrument is Bruker D-8 Advance powder diffractometer (Cu K _αRadiation, λ=1.5406 ).Wherein, the Pb (Fe of curve a for obtaining by embodiment 1 _1/2Nb _1/2) O ₃XRD figure spectrum, the Pb (Sc of b for obtaining by embodiment 4 _1/2Nb _1/2) O ₃XRD figure spectrum, the Pb (Ni of c for obtaining by embodiment 8 _1/3Nb _2/3) O ₃XRD figure spectrum.

Fig. 2 is the Pb (Fe that obtains by embodiment 1 _1/2Nb _1/2) O ₃The scanning electron microscope shape appearance figure of powder.Used instrument is a HitachiS-3500N type scanning electronic microscope.

Embodiment

Further illustrate substantive distinguishing features of the present invention and remarkable advantage below by embodiment, the present invention only is confined to the embodiment that stated by no means.

Embodiment 1

This example is to prepare niobium iron acid lead Pb (Fe with coprecipitation method _1/2Nb _1/2) O ₃Powder

(1) with mol ratio is 1: 8 Nb ₂O ₅-KOH mixture is dissolved in deionized water through the product that 360 ℃ of calcining 2h obtain; Then with nitric acid titration pH value to 2; The white precipitate that centrifugation is obtained is dissolved in oxalic acid solution, and what obtain clear after the stirring contains niobium oxalate solution A;

(2) be 10 with niobium oxalate solution A to the pH value that contains that obtains in the ammonia water titration step 1, obtain white depositions B through centrifugation and deionized water wash;

(3) white depositions B is dissolved in the salpeter solution that concentration is 2mol/l, and Pb: Fe: Nb=2 in molar ratio: 1: 1, add Pb (NO ₃) ₂And Fe (NO ₃) ₃Simultaneously, drip the hydrogen peroxide that is equivalent to 3 times of niobium element molar weights, behind the stirring 30min, obtain transparent clarifying precursor solution C;

(4) use ammoniacal liquor as precipitation agent, regulate the pH value to 12 of precursor solution C, obtain coprecipitated product D;

(5) the coprecipitated product D of centrifugation gained, behind deionized water wash, through 80 ℃ of dryings, 800 ℃ of calcining 2h obtain uhligite phase relaxor based ferroelectrics niobium iron acid lead Pb (Fe _1/2Nb _1/2) O ₃Powder.Curve a is the XRD diffracting spectrum of this powder among Fig. 1.Fig. 2 is the scanning electron microscope shape appearance figure of this powder.

(6) sinter resulting powder into pottery by the listed sintering schedule of table 1, and measure its dielectric properties and list in table 1.

Experiment shows: the leaded relaxation base niobate product of gained is pure perovskite structure, and have size evenly, the granule-morphology of cubic.

The powder of all the other embodiment gained all has pure perovskite phase structure and similar granule-morphology.

Embodiment 2

PH value to 13 with ammonia water titration precursor solution C; Drying temperature is 100 ℃.All the other conditions are with embodiment 1.Obtain the niobium iron acid lead Pb (Fe of pure perovskite phase _1/2Nb _1/2) O ₃Powder.

Sinter resulting powder into pottery by the listed sintering schedule of table 1, and measure its dielectric properties and list in table 1.

Embodiment 3

White depositions B is dissolved in the salpeter solution that concentration is 4mol/l; Dropping is equivalent to the hydrogen peroxide of 10 times of niobium element molar weights, stirs 10min, obtains the precursor solution C of clear.All the other conditions obtain the niobium iron acid lead Pb (Fe of pure perovskite phase with embodiment 1 _1/2Nb _1/2) O ₃Powder.Niobium iron acid lead Pb (Fe _1/2Nb _1/2) O ₃Powder.

Embodiment 4

This example is to prepare lead scandate columbate Pb (Sc with coprecipitation method _1/2Nb _1/2) O ₃Powder

(1) with mol ratio is 1: 8 Nb ₂O ₅-KOH mixture is dissolved in deionized water through the product that 340 ℃ of calcining 2h obtain; Then with nitric acid titration pH value to 3; The white precipitate that centrifugation is obtained is dissolved in oxalic acid solution, and what obtain clear after the stirring contains niobium oxalate solution A;

(2) be 11 with niobium oxalate solution A to the pH value that contains that obtains in the ammonia water titration step 1, obtain white depositions B through centrifugation and deionized water wash;

(3) white depositions B is dissolved in the salpeter solution that concentration is 3mol/l, and Pb: Sc: Nb=2 in molar ratio: 1: 1, add Pb (NO ₃) ₂And Sc (NO ₃) ₃Simultaneously, drip the hydrogen peroxide that is equivalent to 8 times of niobium element molar weights, behind the stirring 20min, obtain the precursor solution C of clear;

(4) use ammoniacal liquor as precipitation agent, regulate the pH value to 10 of precursor solution C, obtain coprecipitated product D;

(5) centrifugation gained coprecipitated product D uses deionized water wash, 90 ℃ of dryings, and 800 ℃ of calcining 1h obtain uhligite phase lead scandate columbate Pb (Sc _1/2Nb _1/2) O ₃Powder.Curve b is the XRD diffracting spectrum of gained powder among Fig. 1.

Embodiment 5

With the pH value of ammonia water titration precursor solution B 13; Coprecipitated product E is calcined 4h through 800 ℃.All the other conditions obtain the lead scandate columbate Pb (Sc of pure perovskite phase with embodiment 4 _1/2Nb _1/2) O ₃Powder.

Embodiment 6

White depositions B is dissolved in the salpeter solution that concentration is 2mol/l; As precipitation agent, regulate the pH value to 12 of precursor solution C with diethylamine.All the other conditions obtain the lead scandate columbate Pb (Sc of pure perovskite phase with embodiment 4 _1/2Nb _1/2) O ₃Powder.

Embodiment 7

Dropping is equivalent to the hydrogen peroxide of niobium element molar weight, stirs 30min; As precipitation agent, regulate the pH value to 13 of precursor solution C with diethylamine.All the other conditions obtain the lead scandate columbate Pb (Sc of pure perovskite phase with embodiment 4 _1/2Nb _1/2) O ₃Powder.

Embodiment 8

This example is to prepare niobium nickel lead plumbate Pb (Ni with coprecipitation method _1/3Nb _2/3) O ₃Powder

(1) with mol ratio is 1: 8 Nb ₂O ₅-KOH mixture is dissolved in deionized water through the product that 380 ℃ of calcining 1h obtain; Then with nitric acid titration pH value to 2; The white precipitate that centrifugation obtained is dissolved in oxalic acid solution, and what obtain clear after the stirring contains niobium oxalate solution A;

(2) be 11 with niobium oxalate solution B to the pH value that contains that obtains in the ammonia water titration step 1, obtain white depositions B through centrifugation and deionized water wash;

(3) white depositions B is dissolved in the salpeter solution that concentration is 2mol/l, and Pb: Ni: Nb=3 in molar ratio: 1: 2, add Pb (NO ₃) ₂And Ni (NO ₃) ₂Simultaneously, drip the hydrogen peroxide that is equivalent to 3 times of niobium element molar weights, behind the stirring 10min, obtain clear precursor solution C;

(4) use diethylamine as precipitation agent, regulate the pH value to 10 of precursor solution C, obtain coprecipitated product E;

(5) the coprecipitated product D of centrifugation gained uses deionized water wash, 100 ℃ of dryings, and 900 ℃ of calcining 2h obtain uhligite phase relaxor based ferroelectrics niobium nickel lead plumbate Pb (Ni _1/3Nb _2/3) O ₃Powder.Curve c is the XRD diffracting spectrum of this powder among Fig. 1.

Embodiment 9

Regulate the pH value to 13 of precursor solution C with diethylamine.All the other conditions obtain the niobium nickel lead plumbate Pb (Ni of pure perovskite phase with embodiment 8 _1/3Nb _2/3) O ₃Powder.

Embodiment 10

Dropping is equivalent to the hydrogen peroxide of 8 times of niobium element molar weights, stirs 20min.All the other conditions obtain the niobium nickel lead plumbate Pb (Ni of pure perovskite phase with embodiment 8 _1/3Nb _2/3) O ₃Powder.

The relaxation base niobate ferroelectric powder sintering that the method that table 1 provides by various embodiments of the present invention prepares

The dielectric properties of the pottery that forms

(measuring condition: room temperature, 1kHz)

Embodiment	Sintering schedule	Relative permittivity ε _r	Dielectric loss tangent value tan δ	Literature value ε _r/tanδ
Embodiment	Sintering schedule	Relative permittivity ε _r	Dielectric loss tangent value tan δ	Literature value ε _r/tanδ	1	1150℃/2h	4826	0.129	2500～3000/ 0.03～0.04 ^[1]
2	1150℃/2h	5003	0.131		1	1150℃/2h	4826	0.129
2	1150℃/2h	5003	0.131	3	1150℃/2h	4899	0.135
4	1200℃/2h	6023	0.052	3	1150℃/2h	4899	0.135	1500-2000/ 0.03-0.04 ^[2]
4	1200℃/2h	6023	0.052	5	1200℃/2h	5892	0.051
6	1200℃/2h	5990	0.050	5	1200℃/2h	5892	0.051
6	1200℃/2h	5990	0.050	7	1200℃/2h	5723	0.050
8	1200℃/2h	1523	0.013	7	1200℃/2h	5723	0.050		1400～1500/ 0.02～0.03 ^[3]
8	1200℃/2h	1523	0.013	9	1200℃/2h	1498	0.017
10	1200℃/2h	1506	0.012	9	1200℃/2h	1498	0.017

[1]S.B.Lee，S.H.Yoon，H.Kim，Positive temperature coefficient ofresistivity in Pb(Fe _1/2Nb _1/2)O ₃ ceramics，J.Euro.Ceram.Soc.24(2004)2465-2470.

[2] Feng Chude, the W.A.Schulze. characteristic of the lead scandate columbate pottery (PSN) of chemical coprecipitation powder preparing, Journal of Inorganic Materials 3 (1990): 237-244

[3]E.F.Alberta，A.S.Bhalla.Low-temperature properties of lead nickelniobate ceramics.Mater.Lett.54(2002)：47-54.

Claims

1, the co-precipitation preparation method of relaxation base niobate ferroelectric powder is characterized in that, may further comprise the steps:

1) with mol ratio is 1: 8 Nb ₂O ₅-KOH mixture is dissolved in deionized water through the product that 340-380 ℃ of calcining 1-2h obtains; Obtain white precipitate with nitric acid titration pH value to 2-3 then; The white precipitate of centrifugation gained also is dissolved in oxalic acid solution, and what obtain clear after the stirring contains niobium oxalate solution A;

2) be 10-11 with niobium oxalate solution A to the pH value that contains that obtains in the ammonia water titration step 1, obtain white depositions B through centrifugation and deionized water wash;

3) white depositions B is dissolved in the salpeter solution that concentration is 2-4mol/l, and by final compound Pb (M, Nb) O ₃Stoichiometric ratio, add Pb (NO ₃) ₂And and final compound Pb (M, Nb) O ₃The nitrate of corresponding metal ions M, wherein M is divalence or trivalent metal ion, comprises Mg ²⁺, Ni ²⁺, Sc ³⁺, Fe ³⁺Simultaneously, dropping is equivalent to niobium molar weight 1-10 hydrogen peroxide doubly, stirs 10-30min, obtains transparent clarifying precursor solution C;

4) with ammoniacal liquor or diethylamine as precipitation agent, the pH value of regulating precursor solution C obtains coprecipitated product D to 10-13;

5) with the centrifugal collection of above-mentioned gained coprecipitated product D, use deionized water wash, after 80-100 ℃ of drying,, obtain final compound Pb (M, Nb) O of uhligite phase at 800-900 ℃ of calcining 1-4h ₃Powder.