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Method for preparing reticular gadolinium titanium oxide material

A technology of gadolinium titanate and mesh, which is applied in the field of preparation of mesh gadolinium titanate materials, can solve the problems of lack of practical application product development, etc., and achieve the effect of stable material structure and performance, broad application prospects, and high catalytic activity

Inactive Publication Date: 2016-12-07
SHENYANG LIGONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The research on this type of material is basically still in the stage of theoretical research, and there is a lack of development of its practical application products, especially the special shape of gadolinium titanate material has not been prepared according to the specific requirements of commonly used photocatalytic reactors.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] A method for preparing a reticular gadolinium titanate material, mainly comprising the following steps:

[0029] (1) Prepare precursor solution 1:

[0030] Add 180 mL of absolute ethanol, 38 mL of acetone, 26 mL of pentanediol, and 4 g of stabilizer OP-9 into a 1000 mL three-neck round bottom flask;

[0031] Place the flask in a precision temperature-controlled electric heating pack, install a thermocouple, an overhead electric mixer and a spherical condenser tube, and put tap water into the condenser tube as a cooling medium;

[0032] By adjusting the heating temperature of the electric heating pack, the temperature of the solution in the flask was kept at 80 °C, the stirring speed of the electric mixer was 200 r / min, and the heating was refluxed for 20 min;

[0033] Add 36 mL of n-tetrabutyl titanate, 10 mL of surfactant CR-6, and 15 mL of directing agent AT-7 into the flask, and continue to heat and reflux at 80 °C for 60 min to obtain precursor solution 1, which is...

Embodiment 2

[0046] A method for preparing a reticular gadolinium titanate material, mainly comprising the following steps:

[0047] (1) Prepare precursor solution 1:

[0048] Add 190 mL of absolute ethanol, 39 mL of acetone, 27 mL of pentanediol, and 5.3 g of stabilizer OP-9 into a 1000 mL three-neck round bottom flask;

[0049] Place the flask in a precision temperature-controlled electric heating pack, install a thermocouple, an overhead electric mixer and a spherical condenser tube, and put tap water into the condenser tube as a cooling medium;

[0050] By adjusting the heating temperature of the electric heating pack, the temperature of the solution in the flask was kept at 80 °C, the stirring speed of the electric mixer was 200 r / min, and the heating was refluxed for 20 min;

[0051] Add 37 mL of n-tetrabutyl titanate, 12 mL of surfactant CR-6, and 16 mL of directing agent AT-7 into the flask, and continue to heat and reflux at 80 °C for 60 min to obtain precursor solution 1, which ...

Embodiment 3

[0064] A method for preparing a reticular gadolinium titanate material, mainly comprising the following steps:

[0065] (1) Prepare precursor solution 1:

[0066] Add 190 mL of absolute ethanol, 45 mL of acetone, 30 mL of pentanediol and 6 g of stabilizer OP-9 into a 1000 mL three-necked round bottom flask;

[0067] Place the flask in a precision temperature-controlled electric heating pack, install a thermocouple, an overhead electric mixer and a spherical condenser tube, and put tap water into the condenser tube as a cooling medium;

[0068] By adjusting the heating temperature of the electric heating pack, the temperature of the solution in the flask was kept at 80 °C, the stirring speed of the electric mixer was 200 r / min, and the heating was refluxed for 20 min;

[0069] Add 38 mL of n-tetrabutyl titanate, 15 mL of surfactant CR-6, and 18 mL of directing agent AT-7 into the flask, and continue to heat and reflux at 80 °C for 60 min to obtain precursor solution 1, which i...

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PUM

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Abstract

The invention relates to a method for preparing a reticular gadolinium titanium oxide material. The method comprises the following steps of: preparing a precursor solution 1: using absolute ethyl alcohol, acetone, pentanediol, stabilizing agents, tetra-n-butyl titanate, surfactants and guiding agents for preparation through heating and backflow; preparing a precursor solution 2: using deionized water, citric acid, gadolinium nitrate, sodium carbonate, polyethylene glycol 10000 and glacial acetic acid for preparation; preparing sol: mixing two precursor solutions, and then performing heating and backflow; performing coating decoration by titanium net gel: lifting and pulling a titanium net in a sol for preparation; performing heat treatment: drying and calcining the titanium net coated with the sol. The stability of a gadolinium titanium oxide coating is high; the active ingredient distribution of the gadolinium titanium oxide is uniform; the catalyst activity is high.

Description

technical field [0001] The invention belongs to the field of environmental purification functional materials, and in particular relates to a method for preparing a netted gadolinium titanate material. Background technique [0002] After nearly 50 years of research and development, photocatalytic pollution purification technology has gradually become a potential multi-purpose pollution purification method, and has excellent applications and performances in various aspects of industry and civil use. In order to improve the efficiency of photocatalytic purification, an important aspect is the use of highly efficient and special-purpose catalytic materials. Industrial photocatalytic purification reactors often have special requirements on the shape of materials, and pure powder materials cannot meet the continuous purification process of pollutants. In order to avoid the separation step from the photocatalytic material after sewage treatment, supported materials are often use...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J23/10B01J35/04
CPCB01J23/10B01J35/39B01J35/56
Inventor 张文杰
Owner SHENYANG LIGONG UNIV
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