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Production of tubing network-structured nano-stannic oxide gas-sensing material

A nano-tin dioxide and network structure technology, applied in the field of sensing materials, can solve problems such as loose structure, limited gas sensitivity, complex process, etc., to ensure safety and stability, guarantee people's life safety, simple and environmentally friendly process Effect

Inactive Publication Date: 2008-10-22
SHANGHAI JIAO TONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

On the one hand, the technology is complex, on the other hand, the powder is often unevenly distributed, the structure is loose, and there is no complex hierarchical structure, which limits the performance of gas sensitivity.
Another example is Chinese patent 2003141921.6, titled: "a zeolite-based nano-tin dioxide gas-sensing material and its preparation method", 200510035581.3, titled: "a tin dioxide-based composite nano-gas-sensing material and its preparation method", Its characteristic is that it is used to prepare gas-sensing materials after preparing nano-powders. However, the gas-sensing materials prepared in this way lack a hierarchical structure that is conducive to further improving their gas-sensitivity.
Although foreign countries have also studied the use of chemical self-assembly to synthesize hierarchical materials, it is difficult to obtain bulk materials with direct application value through self-assembly.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0016] Select fresh poultry eggs, remove the liquid content, rinse the eggshell with clean water, put it into 1M hydrochloric acid solution for about 10 minutes to peel off the egg film, rinse it fully with clean water and deionized water three times, remove it and blow it at room temperature. Dry in the air; weigh 40 mg of the above-mentioned clean and dry biological material egg film, immerse it in the prepared 250ml 1M tin nitrate aqueous solution for 2 hours, take it out and dry it, then put it into an electromagnetic oven and heat it at a heating rate of 25°C / min to 450°C and keep the constant temperature for 1.5 hours, then stop heating, and take it out after the furnace temperature drops to room temperature naturally. The obtained white flakes are composed of tin dioxide, which is used as a gas sensitive material and has a sensitivity coefficient of more than 20 to ethanol gas at an operating temperature of 240°C.

Embodiment 2

[0018] Select fresh poultry eggs, remove the liquid content, rinse the eggshell with clean water, put it into 1M hydrochloric acid solution for about 10 minutes to peel off the egg film, rinse it fully with clean water and deionized water three times, remove it and blow it at room temperature. Dry in the air; weigh 40 mg of the above-mentioned clean and dry biological material egg film, immerse it in the prepared 250ml 1M tin nitrate impregnation solution for 24 hours, take it out and dry it, then put it into an induction cooker and heat it at a heating rate of 1°C / min After reaching 550°C and maintaining a constant temperature for 1.5 hours, stop heating, and take it out after the furnace temperature naturally drops to room temperature. The obtained white flakes are composed of tin dioxide, which is used as a gas-sensing material and has a sensitivity coefficient of more than 20 to liquefied petroleum gas at an operating temperature of 300°C.

Embodiment 3

[0020] Select fresh poultry eggs, remove the liquid content, rinse the eggshells with clean water, soak in 1M hydrochloric acid solution for about 10 minutes to peel off the egg film, rinse thoroughly with clean water and deionized water for three times, remove and blow at room temperature Dry in the air; weigh 40 mg of the above-mentioned clean and dry biological material egg film, immerse it in the prepared 250ml 1M tin nitrate impregnation solution for 13 hours, take it out and dry it, then put it into an induction cooker and heat it at a heating rate of 35°C / min After reaching 550°C and maintaining a constant temperature for 1.5 hours, stop heating, and take it out after the furnace temperature naturally drops to room temperature. The resulting white flake component is tin dioxide, which is used as a gas-sensitive material. When the working temperature is lower than 240 ° C, it shows a significant selectivity to ethanol (the ratio of the sensitivity coefficient to ethanol a...

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Abstract

The invention relates to a preparation method of nanometer two oxides tin gas sensitive material in three-dimensional tubulous network structure , adopting the eggshell film of birds to be raw material based on biological form board synthetic technology, after the separation and clean pretreatment of the egg film ,doing steeping optimizing treatment by dipping it in tin salt aqueous solution, carrying out oxidizing firing treatment then, forming tin dioxide nanometer crystal in the original place under the effect of biological form board , gaining a nanometer two oxides tin gas sensitive material in three-dimensional tubulous network structure of with advantageous function . The technology of the invention is simple, the cost is cheap, the gained gas sensitive material is composed of high crystal degree nanometer pellet ,it has the structure of three-dimensional communicating tubulous network, the gained gas sensitive component has these advantages such as the stability is good , the selectivity is much, assembling and treating is easily, it can be applied to the detecting devices such as automobile tail gas measurement , enterprise exhaust emission , the anti-leakage device of deliquescing station ,it has the fine application prospect in the fields as the electron electricity, industry and civil use.

Description

technical field [0001] The invention relates to a method for preparing a three-dimensional tubular network structure nano-tin dioxide gas-sensitive material, and prepares a gas-sensitive material with a special graded structure crystal, a high specific surface area, and small-sized nanoparticles, and belongs to the technical field of sensing materials. Background technique [0002] With the advancement of science and technology and the development of industry, industrial waste gas and vehicle exhaust emissions have caused great pollution to the atmosphere, causing serious damage to the urban environment and the health of residents. Therefore, gas sensors used to detect toxic gases play an important role in people's lives. The role is getting bigger and bigger. SnO 2 It is an n-type semiconductor gas sensor, and its application in gas sensors has attracted much attention. Nano SnO 2 There are many preparation methods, mainly physical methods (such as sputtering method, vap...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N27/407C01G19/02
Inventor 董群苏慧兰张荻
Owner SHANGHAI JIAO TONG UNIV
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