CN1887718A - Combustion process of preparing nanometer CeO2 - Google Patents

Combustion process of preparing nanometer CeO2 Download PDF

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CN1887718A
CN1887718A CN 200610029642 CN200610029642A CN1887718A CN 1887718 A CN1887718 A CN 1887718A CN 200610029642 CN200610029642 CN 200610029642 CN 200610029642 A CN200610029642 A CN 200610029642A CN 1887718 A CN1887718 A CN 1887718A
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oxysuccinic acid
solution
stirring
water
ceric oxide
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CN100404425C (en
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王麟生
李强
刘甜
胡炳元
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East China Normal University
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East China Normal University
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Abstract

The present invention is combustion process of preparing nanometer CeO2, and belongs to the field of superfine CeO2 powder preparing technology. The present invention prepares nanometer CeO2 with cerium nitrate as cerium source and malic acid as complexing agent, and through compounding water solution of malic acid, adding cerium nitrate through stirring to dissolve, regulating pH value with ammonia water, stirring at room temperature to evaporate solvent, drying and heating for self-spreading combustion to obtain nanometer CeO2. The process of the present invention is superior to available precipitation process, and has the advantages of cheap material, low preparation cost, simple operation, relaxed requirement on the apparatus and yield up to 85-92 %, and the product has average size of 6-25 nm and different shapes.

Description

A kind of method for preparing nano ceric oxide with combustion method
Technical field
The present invention relates to a kind ofly prepare the method for nano ceric oxide, belong to the technical field of ultra-fine cerium dioxide powder preparation with combustion method.
Background technology
Nano ceric oxide is a kind of Multifunction material with cube fluorite structure, has a wide range of applications.Aspect catalysis and since in the cerium oxide in the low and cerium dioxide of the redox-potential between Ce (III) and the Ce (IV) the oxygen room have high diffusibility, so the catalyzer of doing the vehicle exhaust processing commonly used.In the Industrial Catalysis process, also can be used as the carrier or the promotor of catalyzer.In addition, nano ceric oxide can be used for chemical-mechanical polishing of semiconductor, solid fuel cell, gas sensor, and the equivalent material of research actinide elements heat of oxidation physical properties etc.Therefore (400~700nm) have high perviousness and (200~400nm) have strong absorptivity, are suitable for doing ultraviolet light screener and sunlight screening skin-protecting product etc. to UV-light because nano ceric oxide is to visible light.Relative TiO 2, ultraviolet light screener such as ZnO, the photocatalytic activity of nano ceric oxide is low, and is little to the infringement of skin, has lower specific refractory power, is more suitable for as sunscreen products.
Nano ceric oxide is common preparation method have: the precipitator method, microemulsion method, solvent-thermal method, sol-gel method etc., the precipitator method are more to the influence factor of product, as: concentration, temperature of reaction, pH value of solution value, calcination time and temperature etc., cause the difficult control of preparation process, and in the high-temperature calcination process to the equipment requirements height, power consumption is big; Microemulsion method is also very unripe on production technique, still can not be applied to suitability for industrialized production on a large scale, in addition, this method raw materials cost height, often use organic solvent in the preparation process or organic raw material pollutes environment, and the gained presoma needs pyroprocessing.Because there are shortcomings such as production cost height, complex manufacturing, severe reaction conditions, product price height and environmental pollution to some extent in above-mentioned these methods, and its application in suitability for industrialized production is restricted.
Summary of the invention
The purpose of this invention is to provide and a kind ofly prepare the method for nano ceric oxide with combustion method, with the nano ceric oxide that this method makes, particle diameter is little, narrow size distribution, and specific surface area is big; In addition, this method adopts combustion method, does not need pyroprocessing, can be by control reaction conditions, the size of regulating nano ceric oxide.
For achieving the above object, the present invention adopts following technical scheme: be respectively cerium source and complexing agent with six water cerous nitrates and oxysuccinic acid, preparation apple aqueous acid, add six water cerous nitrates, stirring and dissolving is regulated the pH value with ammoniacal liquor, at room temperature stirs the complex compound that forms oxysuccinic acid, through evaporating solvent, drying and heating self-propagating combustion, get nano ceric oxide.
Now be described with reference to the accompanying drawings technical scheme of the present invention.A kind of method for preparing nano ceric oxide with combustion method, it is characterized in that, be respectively cerium source and complexing agent with six water cerous nitrates and oxysuccinic acid, get oxysuccinic acid and add in the entry, stirring and dissolving adds six water cerous nitrates again, stirring and dissolving, get oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.1~0.4molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is (0.5~2): 1, and to described solution dropping ammonia, the pH value of regulator solution is between 1~10, different solution or the precipitations of getting according to the pH value, stir 1~3h under the room temperature, 50~80 ℃ of evaporating solvents obtain wet gel or moist precipitate, 50~80 ℃ of vacuum-dryings obtain loose porous xerogel or blocks of solid then, loose porous xerogel or blocks of solid are heated to the generation self-propagating combustion, obtain powdery product, nano ceric oxide.
The present invention compares with existing preparation technology and has the following advantages:
1, the present invention adopts cost of material cheap, and preparation cost is low, and operating process is simple, and equipment requirements is low, and the productive rate height does not particularly need pyroprocessing, and economical rationality realizes suitability for industrialized production easily.
2, the present invention does not need pyroprocessing, and the self-propagating combustion by loose porous xerogel or blocks of solid can obtain nano ceric oxide, because the reaction times is short, temperature is low, helps the refinement of particle, has reduced interparticle reunion degree.
3, by control proportioning raw materials, pH value of solution value, can prepare the particle diameter nano ceric oxide different with pattern, median size is between 6~25nm, and control process easy handling, productive rate are 85%~92%.
Description of drawings
The process flow diagram of Fig. 1 method of the present invention.
The pH value of Fig. 2 oxysuccinic acid-cerous nitrate solution be 2 and the mol ratio of oxysuccinic acid and six water cerous nitrates be 1: 1 o'clock, the transmission electron microscope picture (TEM) of product nano ceric oxide and selected area electron diffraction picture (SAED).
The pH value of Fig. 3 oxysuccinic acid-cerous nitrate solution be 2 and the mol ratio of oxysuccinic acid and six water cerous nitrates be 1: 1 o'clock, the X-ray diffractogram of product nano ceric oxide (XRD).
Embodiment
Embodiment 1:
Be respectively cerium source and complexing agent with six water cerous nitrates and oxysuccinic acid, get the 0.3352g oxysuccinic acid and be dissolved in the 50mL distilled water stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.1molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 0.5: 1, to described solution dropping ammonia, the pH=1 of regulator solution, get colourless solution, stir 1h under the room temperature, 50 ℃ of evaporating solvents obtain water white wet gel, 50 ℃ of vacuum-dryings, get loose porous xerogel, loose porous xerogel is heated to the generation self-propagating combustion, get 0.7916g powdery product nano ceric oxide.
Embodiment 2:
Be respectively cerium source and complexing agent with six water cerous nitrates and oxysuccinic acid, get the 0.6705g oxysuccinic acid and be dissolved in the 25mL distilled water stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.2molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 1: 1, adds ammoniacal liquor to above-mentioned drips of solution, the pH=2 of regulator solution, get colourless solution, stir 2h under the room temperature, 60 ℃ of evaporating solvents obtain water white wet gel, 60 ℃ of vacuum-dryings, get loose porous xerogel, loose porous xerogel is heated to the generation self-propagating combustion, get 0.7903g powdery product nano ceric oxide.
Embodiment 3:
Be respectively cerium source and complexing agent with six water cerous nitrates and oxysuccinic acid, get the 1.3409g oxysuccinic acid and be dissolved in the 12.5mL distilled water stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.4molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 2: 1, to described solution dropping ammonia, the pH=6 of regulator solution, produce white precipitate, stir 3h under the room temperature, 70 ℃ of evaporating solvents are treated to obtain moist precipitate after the most of evaporation of solvent, 70 ℃ of vacuum-dryings, get blocks of solid, blocks of solid is heated to the generation self-propagating combustion, get 0.7790g powdery product nano ceric oxide.
Embodiment 4:
Be respectively cerium source and complexing agent with six water cerous nitrates and oxysuccinic acid, get the 0.6705g oxysuccinic acid and be dissolved in the 25mL distilled water stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.2molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 1: 1, adds ammoniacal liquor to above-mentioned drips of solution, the pH=10 of regulator solution, produce brown precipitation, stir 3h under the room temperature, 80 ℃ of evaporating solvents are treated to obtain moist precipitate after the most of evaporation of solvent, 80 ℃ of vacuum-dryings, get blocks of solid, blocks of solid is heated to the generation self-propagating combustion, get 0.7667g powdery product nano ceric oxide.

Claims (5)

1. method for preparing nano ceric oxide with combustion method, it is characterized in that, be respectively cerium source and complexing agent with six water cerous nitrates and oxysuccinic acid, getting oxysuccinic acid adds in the entry, stirring and dissolving adds six water cerous nitrates, stirring and dissolving again, get oxysuccinic acid-cerous nitrate solution, the concentration of cerous nitrate is 0.1~0.4molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is (0.5~2): 1, and to described solution dropping ammonia, the pH value of regulator solution is between 1~10, different solution or the precipitations of getting according to the pH value, stir 1~3h under the room temperature, 50~80 ℃ of evaporating solvents obtain wet gel or moist precipitate, 50~80 ℃ of vacuum-dryings obtain loose porous xerogel or blocks of solid then, loose porous xerogel or blocks of solid are heated to the generation self-propagating combustion, obtain powdery product, nano ceric oxide.
2. the method for preparing nano ceric oxide with combustion method according to claim 1, it is characterized in that, getting the 0.3352g oxysuccinic acid is dissolved in the 50mL distilled water, stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.1molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 0.5: 1, to described solution dropping ammonia, the pH=1 of regulator solution, get colourless solution, stir 1h under the room temperature, 50 ℃ of evaporating solvents obtain water white wet gel, 50 ℃ of vacuum-dryings, get loose porous xerogel, loose porous xerogel is heated to the generation self-propagating combustion, get 0.7916g powdery product nano ceric oxide.
3. the method for preparing nano ceric oxide with combustion method according to claim 1, it is characterized in that, getting the 0.6705g oxysuccinic acid is dissolved in the 25mL distilled water, stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.2molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 1: 1, adds ammoniacal liquor to above-mentioned drips of solution, the pH=2 of regulator solution, get colourless solution, stir 2h under the room temperature, 60 ℃ of evaporating solvents obtain water white wet gel, 60 ℃ of vacuum-dryings, get loose porous xerogel, loose porous xerogel is heated to the generation self-propagating combustion, get 0.7903g powdery product nano ceric oxide.
4. the method for preparing nano ceric oxide with combustion method according to claim 1, it is characterized in that, getting the 1.3409g oxysuccinic acid is dissolved in the 12.5mL distilled water, stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.4molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 2: 1, to described solution dropping ammonia, the pH=6 of regulator solution, produce white precipitate, stir 3h under the room temperature, 70 ℃ of evaporating solvents are treated to obtain moist precipitate after the most of evaporation of solvent, 70 ℃ of vacuum-dryings, get blocks of solid, blocks of solid is heated to the generation self-propagating combustion, get 0.7790g powdery product nano ceric oxide.
5. the method for preparing nano ceric oxide with combustion method according to claim 1, it is characterized in that, getting the 0.6705g oxysuccinic acid is dissolved in the 25mL distilled water, stirring and dissolving, add 2.1712g six water cerous nitrates again, stirring and dissolving gets oxysuccinic acid-cerous nitrate solution, form the title complex of oxysuccinic acid and cerium, the concentration of cerous nitrate is 0.2molL -1The mol ratio of oxysuccinic acid and six water cerous nitrates is 1: 1, adds ammoniacal liquor to above-mentioned drips of solution, the pH=10 of regulator solution, produce brown precipitation, stir 3h under the room temperature, 80 ℃ of evaporating solvents are treated to obtain moist precipitate after the most of evaporation of solvent, 80 ℃ of vacuum-dryings, get blocks of solid, blocks of solid is heated to the generation self-propagating combustion, get 0.7667g powdery product nano ceric oxide.
CNB200610029642XA 2006-08-01 2006-08-01 Combustion process of preparing nanometer CeO2 Expired - Fee Related CN100404425C (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100460061C (en) * 2007-04-06 2009-02-11 华东师范大学 Method for preparing nano-Ce-Magnesium coumpoud oxide
CN101733111B (en) * 2008-11-10 2012-02-29 中国石油大学(北京) Perovskite/cerium dioxide composite catalyst and preparation method thereof and catalytic combustion on soot
CN101269971B (en) * 2007-08-06 2012-09-12 深圳市德方纳米科技有限公司 Method of preparing nano-particle
WO2015058037A1 (en) * 2013-10-17 2015-04-23 Cerion, Llc Malic acid stabilized nanoceria particles
CN104588660A (en) * 2015-01-07 2015-05-06 中南大学 Solid-phase combustion synthesis method for preparing overall porous metal section
CN110817927A (en) * 2019-12-26 2020-02-21 江西师范大学 Method for preparing light porous nano cerium oxide by combustion method

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10106990A (en) * 1996-09-30 1998-04-24 Hitachi Chem Co Ltd Cerium oxide abrasive material and polishing method of substrate

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100460061C (en) * 2007-04-06 2009-02-11 华东师范大学 Method for preparing nano-Ce-Magnesium coumpoud oxide
CN101269971B (en) * 2007-08-06 2012-09-12 深圳市德方纳米科技有限公司 Method of preparing nano-particle
CN101733111B (en) * 2008-11-10 2012-02-29 中国石油大学(北京) Perovskite/cerium dioxide composite catalyst and preparation method thereof and catalytic combustion on soot
WO2015058037A1 (en) * 2013-10-17 2015-04-23 Cerion, Llc Malic acid stabilized nanoceria particles
US10143661B2 (en) 2013-10-17 2018-12-04 Cerion, Llc Malic acid stabilized nanoceria particles
CN104588660A (en) * 2015-01-07 2015-05-06 中南大学 Solid-phase combustion synthesis method for preparing overall porous metal section
CN110817927A (en) * 2019-12-26 2020-02-21 江西师范大学 Method for preparing light porous nano cerium oxide by combustion method

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