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Method for synthesizing sensitive photochromic WO3 nano powder by formaldehyde inducement

A photochromic and nano-powder technology, applied in the direction of color-changing fluorescent materials, chemical instruments and methods, tungsten oxide/tungsten hydroxide, etc., can solve the problems of complex preparation methods, weak photochromic ability, and less powder research , to achieve the effect of simple synthesis method, enhanced surface activity and large specific surface area

Inactive Publication Date: 2010-07-28
HUBEI UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But at present, the main research on it is concentrated on the sol and thin film, but the research on the powder is less, in order to expand WO 3 application range of photochromic materials, it is necessary for WO 3 Photochromic powders are studied, but in less relevant WO 3 In the research report on the synthesis of powder and photochromism, the preparation method is relatively complicated, and the prepared WO 3 Powders are often densely packed amorphous micron structures with weak photochromic ability. The optimal excitation light source reported in the report is a 350W high-pressure mercury lamp

Method used

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  • Method for synthesizing sensitive photochromic WO3 nano powder by formaldehyde inducement
  • Method for synthesizing sensitive photochromic WO3 nano powder by formaldehyde inducement

Examples

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Effect test

Embodiment 1

[0017] A formaldehyde-induced synthesis of sensitive photochromic WO 3 The method for nanometer powder, it comprises the steps:

[0018] First, potassium tungstate was used as the tungsten source (K 2 WO 4 ), to prepare 1mol / L of K 2 WO 4 Solution 100ml, and under the effect of 500r / min stirring speed of magnetic stirrer, dropwise add hydrochloric acid, the pH value of adjustment solution is 0.8, under the action of magnetic stirring, then add dropwise formaldehyde solution 8ml as inducer, the volume of formaldehyde solution The concentration is 38%, stirred and homogenized for 4 hours; then the obtained reaction system is put into a hydrothermal kettle for 60 hours of hydrothermal reaction at 120° C.; the reaction product is first washed repeatedly with distilled water (double distilled water) until the pH of the clear liquid is 7.0, then wash with absolute ethanol to remove residual water-soluble impurities and excess formaldehyde; finally, put the reacted powder into a ...

Embodiment 2

[0028] The difference from Example 1 is that the amount of formaldehyde solution added is 0.8 times that of Example 1, and the measured chromaticity value of the powder is 2.953. After 20 minutes of ultraviolet light irradiation, the powder turns blue, and its chromaticity value is 35.874 , Moved into a dark place for 1.5h and faded, its chromaticity value was 3.015, and its powder particle size was 35.6nm.

Embodiment 3

[0030] The difference from Example 1 is that the same sample was tested for its photochromic performance between 12:00 noon and 14:00 on a sunny summer day in southern China. After 20 minutes of light, the chromaticity value was 42.362, and it faded after being moved into a dark place for 2 hours. The degree value is 3.042.

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Abstract

The invention relates to a synthesis method of sensitive photochromatic WO3 nanometer powder, a formaldehyde-inducing synthesis method of sensitive photochromatic WO3 nanometer powder, comprising the following steps of: 1) selecting 0.05 mol / L to 3 mol / L tungstate solution, dripping hydrochloric acid while agitating tungstate solution by magnetic agitator at 400 r / min to 600 r / min, regulating pH as 0.2 to 2.5; then dripping 35% to 40% formaldehyde solution gradually while agitating formaldehyde solution magnetically, agitating the mixture evenly for 2h to 6h, to obtain mixture A; wherein, volume ratio of tungstate solution to formaldehyde solution is: tungstate solution : formaldehyde solution=1:0.04 to 1:0.20; 2) putting the obtained mixture A into water heat reaction kettle for water heat reaction at 80 deg C to 180 deg C for 2 to 6 days, to obtain mixture B; 3) washing and collecting powder, to obtain formaldehyde-inducing synthesized sensitive photochromatic WO3 nanometer powder. The synthesis method is simple, and the synthesized sensitive photochromatic WO3 nanometer powder is provided with high photochromatic sensitivity.

Description

technical field [0001] The present invention relates to sensitive photochromic WO 3 Synthesis method of nanopowder. Background technique [0002] Photochromic material is a traditional functional material. Scientists at the end of the 19th century first discovered photochromism, but it did not attract widespread attention. In 1949, Hirshberg first proposed a scientific definition of photochromism and replaced it with Photochromism The original Phototropic. The definition points out that: a chemical substance (A) undergoes a chemical reaction to produce a product (B) under the action of light; the chemical substance (B) can return to (A) under the action of light or heat, and the absorption of the two Spectra are significantly different. With the deepening of research, this definition is gradually perfected and expanded. In the following 20 years, scientists began to gradually enter the field of research. Until 1978, Professor H.G.Heller, a famous British chemist and one ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09K9/00C01G41/02
Inventor 赵丽王世敏许祖勋董兵海王贤保沈毅朱华
Owner HUBEI UNIV
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