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A kind of colloidal crystal coating and its application for preparing mouse pad

A colloidal crystal, mouse pad technology, applied in the direction of coating, data processing input/output process, instruments, etc., can solve the problem of limiting the optical mouse, the efficiency is not high, to improve the moving speed, the process equipment is simple, the yield high effect

Active Publication Date: 2020-02-07
QINGDAO UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although the performance of the mouse pads on the market is generally relatively mature, the movement of the photoelectric mouse is positioned by the light emitted from the bottom of the mouse and then reflected by the mouse pad back to the light sensor inside the photoelectric mouse for positioning. The efficiency of the mouse pad to the reflected light of the photoelectric mouse is not high, so it limits the practical application of the photoelectric mouse

Method used

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  • A kind of colloidal crystal coating and its application for preparing mouse pad
  • A kind of colloidal crystal coating and its application for preparing mouse pad
  • A kind of colloidal crystal coating and its application for preparing mouse pad

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] The colloidal crystal coating described in this embodiment includes 0.5 g of monodisperse copolymer microspheres with a particle diameter of 220 nm, and 0.01 g of water-soluble carbon black.

[0029] The monodisperse copolymer microspheres described in this example are polymerized from styrene, methyl methacrylate and acrylic acid monomer components, which can be prepared according to methods known in the prior art. Monodisperse copolymer microspheres are prepared as follows:

[0030] Add 100ml of distilled water to a 250ml three-necked flask, then dissolve 17.5mg of emulsifier SDBS and 0.50g of buffer ammonium bicarbonate in the above distilled water, and in addition, 1.00g of MMA, 1.00g of AA and 19.00g of After St is mixed evenly, it is added to the above-mentioned three-necked flask, mechanically stirred, 450r / min, and heated in an oil bath. When the temperature rises to 70°C, continue to keep stirring at a constant temperature for 30min, and then add an aqueous sol...

Embodiment 2

[0038] The colloidal crystal coating described in this embodiment includes 0.5 g of monodisperse copolymer microspheres with a particle diameter of 260 nm, and 0.01 g of water-soluble carbon black.

[0039] The monodisperse copolymer microspheres described in this example are polymerized from styrene, methyl methacrylate and acrylic acid monomer components, which can be prepared according to methods known in the prior art. Copolymer microspheres are prepared as follows:

[0040] Add 100ml of distilled water to a 250ml three-necked flask, then dissolve 17.5mg of emulsifier SDBS and 0.50g of buffer ammonium bicarbonate in the above distilled water, and in addition, 1.00g of MMA, 1.00g of AA and 19.00g of After St is mixed evenly, it is added to the above-mentioned three-necked flask, mechanically stirred, 450r / min, and heated in an oil bath. When the temperature rises to 70°C, continue to keep stirring at a constant temperature for 30min, and then add an aqueous solution of init...

Embodiment 3

[0048] 本实施例所述的胶体晶体涂料包括0.4g粒径为220nm的单分散共聚物微球,以及0.01g水溶性炭黑。

[0049] 本实施例所述单分散共聚物微球的制备方法同实施例1。

[0050] 本实施例所述的胶体晶体涂料的制备方法包括如下步骤:

[0051] S1、共聚物微球的清洗:

[0052] 将0.4g粒径为220nm的单分散共聚物微球均匀地分散在40ml蒸馏水中,倒入离心管用蒸馏水和乙醇各清洗三次至上清液澄清;

[0053] S2、把清洗过后的共聚物微球掺杂炭黑:

[0054] 将清洗后的共聚物微球分散到40ml蒸馏水中,加入0.01g水溶性炭黑,将混合溶液倒入离心管中,放入超声波清洗机超声10min,放入离心机,调整转速11000r / min,离心30min,取出倒出多余的液体,即为所需的胶体晶体涂料。

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Abstract

The invention belongs to the technical field of colloidal crystal materials and specifically relates to colloidal crystal paint. According to the colloidal crystal paint, water-soluble carbon black isutilized to enhance reflected light intensity of colloidal crystal. The invention further discloses application of the colloidal crystal paint to prepation of the mouse pad. The colloidal crystal paint disclosed by the invention is prepared by mixing copolymer microballoon emulsion with the water-soluble carbon black. The water-soluble carbon black is favorable for enhancing the reflected light intensity of colloidal crystal, so that the colloidal crystal paint is suitable for preparing photoelectric mouse pads. The photoelectric mouse pad is covered by the colloidal crystal paint disclosed by the invention to form a light reflecting layer; according to a mouse movement speed test, a movement speed of a photoelectric mouse on the mouse pad coated with the colloidal crystal paint is higherthan that of the photoelectric mound on a mouse pad not coated with the colloidal crystal paint. Therefore, the colloidal crystal paint disclosed by the invention is favorable for improving the reflected light intensity of the mouse pad and can improve the mouse movement speed.

Description

technical field [0001] The invention belongs to the technical field of colloidal crystal materials, and in particular relates to a colloidal crystal coating. The colloidal crystal coating utilizes water-soluble carbon black to enhance the reflected light intensity of colloidal crystals, and further discloses its application for preparing mouse pads. Background technique [0002] Colloidal crystals are a class of substances with three-dimensional ordered structures formed by monodisperse micron or submicron inorganic or organic particles. In the three-dimensional ordered structure of colloidal crystals, the repeating period is on the order of micrometers and submicrometers, and visible light (400-700nm) can undergo Bragg diffraction in it, making it present different colors. In the past few decades, the study of the optical properties of colloidal crystals has received high attention. [0003] At present, the application fields of colloidal crystals are very extensive, and r...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09D125/14C09D7/61G06F3/039C08F212/08C08F220/14C08F220/06
CPCC08F212/08C09D7/61C09D125/14G06F3/0395C08F220/14C08F220/06C08K3/04
Inventor 丛海林于冰李照卿张小艳
Owner QINGDAO UNIV
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