Preparation method of photochromic vehicle window capable of stopping ultraviolet rays and product and application of photochromic vehicle window

A photochromic and ultraviolet technology, applied in photochromic car windows and its application fields, can solve problems such as hindering the development of photochromic car windows, complex process technology, high raw material costs, etc., achieve good practical prospects, simple process flow, and low cost Effect

Active Publication Date: 2019-03-05
UNIV OF SCI & TECH OF CHINA
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The existing color-changing car windows have high raw material costs and complicated process technology, which cannot meet the economical requirements of industrial production, which hinders the development of commercial application of color-changing car windows

Method used

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  • Preparation method of photochromic vehicle window capable of stopping ultraviolet rays and product and application of photochromic vehicle window
  • Preparation method of photochromic vehicle window capable of stopping ultraviolet rays and product and application of photochromic vehicle window
  • Preparation method of photochromic vehicle window capable of stopping ultraviolet rays and product and application of photochromic vehicle window

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0084] Example 1: BiBaO 2 Preparation of Br nanomaterials and film-type photochromic car windows

[0085] Weigh 0.5g of bismuth nitrate into a 50mL three-neck flask filled with 30mL of deionized water, and stir for 5 minutes with a magnetic stirrer; weigh 1g of mannitol into the above mixture, and heat to 100°C with an electric heating mantle; Weigh 0.6g of barium acetate and add to the above mixture, continue to heat and stir for 10 minutes; weigh 1g of disodium ethylenediaminetetraacetate and add to the above mixture, continue to heat and stir for 30 minutes until the solution becomes transparent to obtain the first solution;

[0086] Weigh 0.45g of sodium bromide and add it into a beaker with a volume of 25mL containing 10mL of deionized water, and stir for 15 minutes with a magnetic stirrer equipped with an electric heating mantle until the solution becomes transparent to obtain the second solution;

[0087] Inject the second solution into the first solution with a syring...

Embodiment 2

[0093] Example 2: Sb 4 o 5 Cl 2 Preparation of nanomaterials and preparation of film-type photochromic car windows

[0094] Weigh 0.8g of antimony chloride and add it into a three-neck flask with a volume of 50mL containing 30mL of deionized water, and stir for 5 minutes with a magnetic stirrer; weigh 0.5g of xylitol and add it to the above mixture, and heat it with an electric heating mantle to 150°C; weigh 1g of polyvinylpyrrolidone and add it to the above mixture, continue heating and stirring for 15 minutes until the solution becomes transparent, and obtain the first solution;

[0095] Weigh 0.2g of sodium chloride and add it into a beaker with a volume of 10mL containing 3mL of oleic acid, and stir for 25 minutes with a magnetic stirrer equipped with an electric heating mantle until the solution appears transparent to obtain the second solution;

[0096] Inject the second solution into the first solution with a syringe, and react for 80 seconds in the three-neck flask ...

Embodiment 3

[0101] Example 3: Bi 2 o 3 WO 3 Preparation of nanomaterials Preparation of integrated photochromic car windows

[0102] Weigh 0.5g of bismuth nitrate and add it into a three-neck flask with a volume of 50mL containing 30mL of deionized water, and stir for 5 minutes with a magnetic stirrer; weigh 0.5g of mannitol and add it to the above mixture, and heat it to 90°C with an electric heating mantle Weighing 0.8g cetyltrimethylammonium bromide was added to the above mixed solution, and continued heating and stirring for 30 minutes until the solution was transparent to obtain the first solution;

[0103] Weigh 0.2g of sodium tungstate and add it to a 10mL beaker containing 5mL of deionized water, and stir for 15 minutes with a magnetic stirrer equipped with an electric heating mantle until the solution becomes transparent to obtain the second solution;

[0104] Inject the second solution into the first solution with a syringe, and react for 240 seconds in the three-neck flask sti...

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Abstract

The invention relates to a preparation method of a photochromic vehicle window capable of stopping ultraviolet rays and a product and application of the photochromic vehicle window. The method includes the steps that a photochromic nanometer material capable of stopping the ultraviolet rays is prepared, wherein the general formula of the material is MaObXc, M, O, X, a, b and c are defined in the patent, the photochromic nanometer material is used, a photochromic nanometer material film adheres to the surface of a common vehicle window, or the photochromic nanometer material and a vehicle window material are mixed and then formed, so that the photochromic vehicle window is prepared. The prepared photochromic vehicle window can stop over 80% of the ultraviolet rays and can be changed into atransparent dark color under strong light illumination, and the transmitting rate is reduced; and the photochromic vehicle window can recover the colorless and transparent state without strong light illumination. The method has the beneficial effects that the technological process is simple, cost is low, the yield is large, the window is suitable for industrial production, and the practical prospects are good.

Description

technical field [0001] The invention relates to the field of intelligent color-changing materials, in particular to a preparation method of a photochromic vehicle window capable of blocking ultraviolet rays, a photochromic vehicle window and an application thereof. Background technique [0002] Photochromism refers to the chemical reaction of certain compound materials under the action of light of a certain wavelength and intensity, resulting in changes in the structure of the compound, causing the color of the compound to change, after the light is removed or irradiated by another wavelength and intensity of light , the color recovers or a new change occurs. Since the 1950s, when Hirshberg et al. reported the possibility of photochromic application in optical recording and storage, the performance and application of various new photochromic materials have been systematically studied and widely used in building window glass. , color-changing glasses lenses, vehicle window g...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B60J1/00C09K9/00
CPCG02C7/10G09F3/0294C09K9/00E06B3/30E06B9/24C01B11/00C01B11/20C01B11/22C01G15/00C01G29/00C01G29/006C01G30/00C01G31/006C01G39/00C03C17/002C03C17/009C03C17/22C08J5/18C08J7/04C08K3/16C08K3/22C08K3/24B60J1/00C01P2004/10C01P2004/17C01P2004/16C01P2004/30C03C2217/20C03C2217/29C03C2217/90C03C2218/118C03C2218/11C03C2218/116C08J2369/00C08J2329/14C08J2433/12C08K2201/011E06B2009/2405C08L27/16
Inventor 吴长征杨波谢毅
Owner UNIV OF SCI & TECH OF CHINA
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