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Antibacterial and antireflection glass plating solution composition, making method thereof and purpose thereof

An anti-reflection glass and composition technology, which is applied in the field of antibacterial anti-reflection glass plating solution composition, achieves the effects of simple preparation, excellent anti-reflection effect and low cost

Inactive Publication Date: 2013-02-13
王德宪
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there is still a lack of glass products that can both reduce reflection and antibacterial in the market

Method used

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  • Antibacterial and antireflection glass plating solution composition, making method thereof and purpose thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] Mix 20 grams of isopropyl titanate, 2 grams of acetic acid, and 25 grams of isopropanol to form dispersion system A; mix 10 grams of silver nitrate, 8 grams of acetonitrile, and 20 grams of isopropanol to form dispersion system B; Mix 10 grams of isopropanol, 3 grams of water, and 2 grams of diethylamine uniformly to form dispersion system C; after combining dispersion system A and dispersion system B, slowly add dispersion system C to it, mix uniformly to form a high refractive index sol-gel Rubber base.

[0051] Mix 31 grams of methyl orthosilicate, 3 grams of hydrochloric acid, and 26 grams of isopropanol to form dispersion system D; mix 8 grams of silver nitrate, 10 grams of isopropanol, and 6 grams of diethylene glycol ether to form dispersion system D. System E; Mix 2 grams of ammonia water, 10 grams of isopropanol, and 4 grams of water to form dispersion system F; after combining dispersion system D and dispersion system E, slowly add dispersion system F to it an...

Embodiment 2

[0054] Mix 20 grams of isopropyl titanate, 2 grams of acetic acid, and 25 grams of isopropanol to form dispersion system A; mix 10 grams of silver nitrate, 8 grams of acetonitrile, and 20 grams of isopropanol to form dispersion system B; Mix 10 grams of isopropanol, 3 grams of water, and 2 grams of diethylamine uniformly to form dispersion system C; after combining dispersion system A and dispersion system B, slowly add dispersion system C to it, mix uniformly to form a high refractive index sol-gel Rubber base.

[0055] Mix 28 grams of methyl orthosilicate, 3 grams of hydrochloric acid, and 26 grams of isopropanol to form a dispersion system D; mix 8 grams of silver nitrate, 10 grams of isopropanol, and 6 grams of diethylene glycol ether to form a dispersion System E; mix 2 grams of ammonia water, 10 grams of isopropanol, and 4 grams of water to form dispersion system F; after combining dispersion system D and dispersion system E, slowly add dispersion system F to it, and fin...

Embodiment 3

[0058] Mix 18 grams of titanium tetrachloride, 2 grams of nitric acid, and 23 grams of isopropanol / methanol mixed solvent (the volume ratio of isopropanol to methanol is 2:1) to form dispersion system A; mix 5 grams of silver nitrate and 7 grams of Zinc chloride, 6 grams of acetonitrile and 5 grams of thiourea, 20 grams of isopropanol / methanol mixed solvent (the volume ratio of isopropanol and methanol is 2:1) are mixed uniformly to form dispersion system B; 8 grams of isopropanol / methanol Methanol mixed solvent (the volume ratio of isopropanol to methanol is 2:1), 3 grams of water, and 3 grams of diethanolamine are mixed evenly to form dispersion system C; after combining dispersion system A and dispersion system B, slowly add dispersion System C, forming a high refractive index sol-gel primer.

[0059] Mix 30 grams of tetraethyl orthosilicate, 2 grams of hydrochloric acid, and 25 grams of isopropanol / methanol mixed solvent (the volume ratio of isopropanol to methanol is 2:1)...

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Abstract

The invention relates to an antibacterial and antireflection glass plating solution composition, a making method thereof and a purpose thereof. The composition comprises the following materials of: a) high-reflection rate sol-gel base solution which comprises a titanium compound, a metal compound, a dispersing agent, a reaction speed adjusting agent, water and an organic solvent; and b) low-reflection rate sol-gel plating solution which comprises a silicon compound, a metal compound, a dispersing agent, a reaction speed adjusting agent, water and an organic solvent, wherein the titanium compound and the silicon compound both can form films through hydrolysis and polymerization; the metal compound has an antibacterial action, wherein the metal is selected from silver, copper, cadmium, zinc, Ferrum, tin, cobalt, cerium, antimony, selenium, chromium, magnesium and nickel; moreover, the low-reflection rate sol-gel plating solution is coated on a high-reflection rate coating formed by the high-reflection rate sol-gel base solution.

Description

technical field [0001] The invention relates to a glass plating solution, more specifically, to an antibacterial and antireflection glass plating solution composition, its preparation method and application. Background technique [0002] The glass with anti-reflection function can make the image behind it appear clearer and more realistically in front of the observer, thereby reducing visual fatigue. Therefore, ordinary glass used in televisions, mobile phones, computers, photo frames, display cabinets, etc. has a tendency to be gradually replaced by anti-reflection glass. In addition, in order to deal with harmful microorganisms in the environment, such as bacteria, fungi, viruses, etc., it is increasingly becoming a trend to use antibacterial glass in all aspects of life and production. However, there is still a lack of glass products that can both reduce reflection and antibacterial in the market. Contents of the invention [0003] In order to prepare both antireflect...

Claims

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Application Information

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IPC IPC(8): C03C17/00
Inventor 王德宪
Owner 王德宪
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