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A kind of triple mesoporous indium oxide gas-sensitive material and preparation method thereof

A mesoporous silicon oxide, indium oxide technology, applied in chemical instruments and methods, nanotechnology for materials and surface science, inorganic chemistry, etc., can solve problems such as low operating temperature, reduce contact, and enhance thermal stability. , the effect of speeding up the response and recovery speed

Active Publication Date: 2016-09-28
NINGXIA UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, formaldehyde gas-sensing materials with high sensitivity, good stability and low working temperature still need to be further developed.

Method used

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  • A kind of triple mesoporous indium oxide gas-sensitive material and preparation method thereof
  • A kind of triple mesoporous indium oxide gas-sensitive material and preparation method thereof
  • A kind of triple mesoporous indium oxide gas-sensitive material and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Get 6.0g surfactant P123, 216g water and 11.8g concentrated hydrochloric acid (37.5%, the same below) mix at 35 ℃, stir 12 hours and make surfactant all dissolve and disperse evenly, then add 6g n-butanol, stir 2 After 1 hour, add 12.9g tetraethyl orthosilicate TEOS, after stirring for 24 hours, transfer to a polytetrafluoroethylene bottle, then 40 degrees of hydrothermal reaction for 1 day, after natural cooling, separate the solid and liquid by suction filtration, wash with water, Dry naturally at room temperature to obtain surfactant-containing mesoporous silica. Then, the surfactant P123 in the sample obtained above (mesoporous silica containing surfactant, the same below) was removed by calcining at 550°C in air for 6 hours to obtain ordered mesoporous silica. The obtained ordered mesoporous silica has a specific surface area of ​​691m 2 / g, pore volume 0.52cm 3 / g, the pore size is about 4.8nm.

[0033] Use 0.6g of the above-mentioned treated mesoporous silica ...

Embodiment 2

[0035] Mix 6.0g of surfactant P123, 216g of water and 11.8g of concentrated hydrochloric acid at 35°C, stir for 1-12 hours until the surfactant is completely dissolved and dispersed evenly, then add 6g of n-butanol, stir for 2 hours, then add 12.9 g of tetraethyl orthosilicate TEOS, stirred for 24 hours, transferred to a polytetrafluoroethylene bottle, followed by hydrothermal reaction at 80 degrees for 1 day, after natural cooling, solid-liquid separation by suction filtration, washing with water, and natural drying at room temperature, that is Obtained mesoporous silica containing surfactant. After the surfactant P123 in the sample obtained above was removed by calcination at 550°C in air for 6 hours, ordered mesoporous silica was obtained. The obtained ordered mesoporous silica has a specific surface area of ​​809m 2 / g, pore volume 0.66cm 3 / g, the pore size is about 6.5nm.

[0036] Use 0.6g of the above-mentioned treated mesoporous silica as a hard template, disperse i...

Embodiment 3

[0038] Mix 6.0g of surfactant P123, 216g of water and 11.8g of concentrated hydrochloric acid at 35°C, stir for 1-12 hours until the surfactant is completely dissolved and dispersed evenly, then add 16.72g of 6g of n-butanol, and stir for 2 hours, Add 12.9g tetraethyl orthosilicate TEOS, stir for 24 hours, transfer to a polytetrafluoroethylene bottle, then 100 degrees hydrothermal reaction for 1 day, after natural cooling, separate solid-liquid by suction filtration, wash with water, and dry naturally at room temperature , that is, mesoporous silica containing surfactant is obtained. After the surfactant P123 in the sample obtained above was removed by calcination at 550°C in air for 6 hours, ordered mesoporous silica was obtained. The obtained ordered mesoporous silica has a specific surface area of ​​860m 2 / g, pore volume 0.76cm 3 / g, the pore size is about 7.9nm.

[0039] Use 0.6g of the above-mentioned treated mesoporous silica as a hard template, disperse it into 10g ...

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Abstract

The invention relates to a triple-mesopore indium oxide formaldehyde gas-sensitive material and a preparation method thereof. The invention is characterized in that the formaldehyde gas-sensitive material is formed by periodically arranging indium oxide spiral nanowires in a cubic mode, wherein every two nanowires are connected through a 2-5nm-long indium oxide nanorod, the diameter of the nanowires is 4-8nm, and the formaldehyde gas-sensitive material has the mesopores with three different sizes (2-4nm, 5-8nm and 10-17nm). The material is unique, and has the mesopore distribution of three different sizes (large, medium and small), thereby being beneficial to dispersion of gas molecules and increasing the response reset rate: the triple-mesopore indium oxide is formed by periodically arranging indium oxide spiral nanowires in a cubic mode, the distribution ratio of the three kinds of mesopores can be controlled by adjusting the pore size and connectivity of the mesopore silicon oxide template and the mass ratio of the indium nitrate to the mesopore silicon oxide, and the gap between the nanowires is beneficial to the dispersion of the gas molecules, thereby increasing the response reset rate.

Description

technical field [0001] The invention relates to a triple mesoporous indium oxide gas-sensitive material and a preparation method thereof. Background technique [0002] As we all know, formaldehyde is an important chemical raw material, widely used in synthetic resins, surfactants, plastics, rubber, leather, paper, dyes, pharmaceuticals, pesticides, photographic film, explosives, building materials, as well as disinfection, fumigation and anticorrosion, etc. industry, but at the same time formaldehyde gas can strongly stimulate human mucous membranes, is carcinogenic, and is a highly toxic substance, so the effective detection of formaldehyde is particularly important. [0003] At present, the detection methods of formaldehyde gas mainly include spectrophotometry, chromatography, fluorescence, and electrochemical methods, but these methods still have some shortcomings, such as expensive equipment, complicated operation, long detection time, and inability to detect in real tim...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01G15/00B82Y30/00B82Y40/00
CPCB82Y40/00C01G15/00C01P2004/04C01P2004/16C01P2004/64C01P2006/16C01P2006/17
Inventor 赖小勇闫冰青薛屏申国鑫杨晓梅李鹏夏维涛
Owner NINGXIA UNIVERSITY
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