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A kind of preparation method of acicular nano zinc ferrite powder

A nano-zinc ferrite and powder technology, applied in nanotechnology, nanotechnology, chemical instruments and methods, etc., can solve the problems of easy agglomeration of powder, cumbersome process, easy agglomeration, etc., and achieve good dispersibility and simple preparation method. , the effect of not easy to reunite

Active Publication Date: 2021-04-20
秦皇岛杰康视电子科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The patent of publication number CN101525156A discloses a preparation method of nano-zinc ferrite, which includes the following steps: under normal temperature and pressure, mix iron salt, zinc salt and cyclodextrin solution evenly, filter after magnetic stirring, and mix the product at 50 Dry at ~150°C for 10-48 hours, and then bake the dried product at a high temperature of 500-900°C for 1-5 hours. Although the preparation method is simple, the prepared powder is easy to agglomerate
The patent with publication number CN109090139A discloses a preparation method and application of an antibacterial nano-zinc ferrite material. A simple co-precipitation method is used to prepare zinc ferrite nanoparticles at room temperature. Although the method is simple, the prepared powder There are also problems of easy agglomeration and large particle size
The patent with publication number CN110339813A discloses a nano-composite magnetic material for air purification and its preparation method. Although nano-zinc ferrite can also be prepared, the preparation process is very complicated.
Patent Publication No. CN110198783A discloses the preparation method of zinc ferrite catalyst, the first precipitate is obtained by contacting the zinc precursor solution with the alkaline solution, and the second precipitate is obtained by adding the iron precursor solution to the first precipitate , and then prepared by drying and firing processes. Although zinc ferrite powder can also be prepared, the process is cumbersome and the obtained powder has a large particle size, which is easy to agglomerate and has low activity.
The patent with publication number CN109806876A discloses a magnetic zinc ferrite / graphene nanocomposite photocatalyst and its preparation method and application. The preparation method of its zinc ferrite is to use diethylene glycol as a solvent and polyethylene glycol as a Appearance control agent, sodium lauryl sulfate as dispersant, using sodium acetate to hydrolyze to provide alkaline conditions, so that zinc ferrite can nucleate and grow uniformly on the surface of graphene, and the prepared zinc ferrite has better dispersibility, but graphite The high price of ethylene restricts its wide application
The patent of publication number CN109455766A discloses a kind of superfine zinc ferrite nanoparticle and its preparation method and gas-sensing application. The preparation method of its zinc ferrite is to first weigh zinc nitrate hexahydrate, ferric nitrate nonahydrate and ethanol solution and mix them. After the above mixture is evenly mixed, add ammonia water dropwise to the mixed solution, adjust the pH of the solution, stir the water bath and ultrasonically for 10-60 minutes, then transfer the mixed solution to a polytetrafluoroethylene-lined autoclave, and place it in a 150-230°C Reaction in an oven for 12 hours, centrifugal drying and other processes; although zinc ferrite nanoparticles can also be prepared, the process is very cumbersome and takes a long time
[0003] According to many research reports, the shape is the influence of nano-ZnFe 2 o 4 The important influencing factors of photocatalytic performance, bactericidal performance, magnetic performance, adsorption performance, etc., among which needle-shaped nano-zinc ferrite has excellent performance in the field of environmental purification and catalysis; currently needle-shaped and well-dispersed nano-iron The low-cost preparation method of zinc acid is rarely reported

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] Add additives, ethanol, sodium salicylate, soluble starch and carbonamide successively in water (100g) under stirring speed 900rpm condition, continue stirring 2min to make reaction solution; Wherein additive is 0.03% of water quality, and ethanol is water quality 5%, sodium salicylate is 3% of water quality, soluble starch is 4% of water quality, carbonamide is 3.6% of water quality; the additive is a mixture of sodium glutamate and allyl polyoxyethylene ether, Wherein sodium glutamate accounts for 19% of the total mass of the additive;

[0026] Add zinc citrate solution dropwise to the reaction solution under the condition of a stirring speed of 1200rpm, and dropwise add it in 2min, then continue to add ferrous acetate solution dropwise under stirring condition, and obtain a precursor suspension after the dropwise addition is completed; zinc citrate The concentration of the solution is 0.2M, and the addition of zinc citrate solution is 3 with the mol ratio of carbonam...

Embodiment 2

[0030] Method is with embodiment 1, and difference is:

[0031] (1) add additive, ethanol, sodium salicylate, soluble starch and carbonamide to water successively under the condition of stirring speed 1100rpm, continue to stir 4min to make reaction solution; Wherein additive is 0.04% of water quality, and ethanol is 0.04% of water quality 10%, sodium salicylate is 6% of the water quality, soluble starch is 9% of the water quality, and carbonamide is 7.5% of the water quality; the additive is a mixture of sodium glutamate and allyl polyoxyethylene ether, wherein Sodium glutamate accounts for 34% of the total mass of additives;

[0032] (2) Add zinc citrate solution dropwise to the reaction solution under the condition of stirring speed 1400rpm, and finish dropping in 4min; The mol ratio of zinc acid is 4; the concentration of ferrous acetate solution is 0.4M;

[0033] (3) Ultrasonic dispersion for 10 minutes; microwave heating to 420°C, heating rate of 16°C / min;

[0034] (4)...

Embodiment 3

[0036] Method is with embodiment 1, and difference is:

[0037] (1) add additive, ethanol, sodium salicylate, soluble starch and carboxamide successively to water under the condition of stirring speed 1000rpm, continue to stir 5min to make reaction solution; Wherein additive is 0.06% of water quality, and ethanol is 0.06% of water quality 15%, sodium salicylate is 8% of the water quality, soluble starch is 6% of the water quality, and carbonamide is 16% of the water quality; the additive is a mixture of sodium glutamate and allyl polyoxyethylene ether, wherein Sodium glutamate accounts for 23% of the total mass of the additive;

[0038] (2) Add zinc citrate solution dropwise to the reaction solution under the condition of stirring speed 1600rpm, and finish dropping in 5min; The mol ratio of acid zinc is 5; the concentration of ferrous acetate solution is 0.6M;

[0039] (3) Ultrasonic dispersion for 16 minutes; microwave heating to 460°C, heating rate of 18°C / min;

[0040] (...

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Abstract

A preparation method of acicular nano-zinc ferrite powder is carried out according to the following steps: (1) under stirring conditions, add additives, ethanol, sodium salicylate, soluble starch and carbonamide to water in sequence, and continue to stir evenly; ( 2) adding zinc citrate solution dropwise to the reaction solution under stirring condition, and then adding ferrous acetate solution dropwise to obtain a precursor suspension; (3) ultrasonically dispersing the precursor suspension and then filtration; solid-phase washing After heating to 400 ~ 500 ℃. The needle-shaped nano-zinc ferrite powder obtained by the method of the invention has good dispersibility, is not easy to agglomerate, and the preparation method is simple and environmentally friendly.

Description

technical field [0001] The invention belongs to the technical field of nanometer materials, and in particular relates to a method for preparing needle-shaped nanometer zinc ferrite powder. Background technique [0002] Nano zinc ferrite (ZnFe 2 o 4 ) is an important functional material, which has been widely used in environmental materials, magnetic materials, new energy materials and other fields in recent years. At present, the methods for preparing nano zinc ferrite include coprecipitation method, solid phase method, solvothermal method, sol-gel method, template method, electrospinning method and so on. The patent of publication number CN101525156A discloses a preparation method of nano-zinc ferrite, which includes the following steps: under normal temperature and pressure, mix iron salt, zinc salt and cyclodextrin solution evenly, filter after magnetic stirring, and mix the product at 50 It is dried at ~150°C for 10-48 hours, and the dried product is calcined at 500-9...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01G49/00B82Y30/00B82Y40/00
CPCB82Y30/00B82Y40/00C01G49/00C01P2004/10
Inventor 杨连威王瑞杰
Owner 秦皇岛杰康视电子科技有限公司
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