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Method for preparing conductive solution of conductive electrode and method for preparing conductive electrode

A technology of conductive electrodes and conductive solutions, which is applied in equipment for manufacturing conductive/semiconductive layers, conductive layers on insulating carriers, conductive materials, etc., can solve device failure, low adhesion of flexible substrates, and limited applications and other problems to achieve the effect of preventing water failure and avoiding short circuits

Pending Publication Date: 2018-12-21
吴飞
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Existing polythiophene is used as a conductive electrode, which will fail due to contact with moisture in the air or volatile solvents; secondly, the traditional PEDOT / PSS has strong acidity as a whole because it uses PSS as a balance ion, which leads to problems in electronics, display, etc. Limits applications, while its own conductivity is relatively low; on the other hand, when this conductive solution is applied, its adhesion to flexible substrates is relatively low
In addition, when the existing conductive electrodes are applied to liquid crystal tablet, flexible LCD, and flexible electronic paper, the box thickness of 3-8 microns will cause local short circuit in actual production and manufacturing, which will easily lead to the failure of the entire device

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] The preparation method of the conductive solution of the conductive electrode of the present embodiment, its steps are as follows:

[0034] S1. Polymerize styrene sulfonate and acrylate to form a polymer:

[0035] Put sodium styrene sulfonate and pentyl acrylate with a ratio of parts by weight of 6:4 into a three-necked flask, then add solvent and initiator, and react the resin monomer at 90°C for 12 hours for polymerization. Wherein, the sodium styrene sulfonate and pentyl acrylate are resin monomers, the solvent is selected from N.N-dimethylacetamide, and the initiator is selected from BPO. The added amount of the resin monomer, solvent and initiator is as follows: the resin monomer accounts for 15% of the total weight, the solvent accounts for 84% of the total weight, and the initiator accounts for 1% of the total weight. After the end of the polymerization reaction, distill under reduced pressure for 5 hours to evaporate most of the solvent; then use deionized wate...

Embodiment 2

[0048] The preparation method of the conductive solution of the conductive electrode of the present embodiment, its steps are as follows:

[0049] S1. Polymerize styrene sulfonate and acrylate to form a polymer:

[0050] Put sodium styrene sulfonate and butyl acrylate with a ratio of parts by weight of 5:3 into a three-necked flask, and then add solvent and initiator to react the resin monomer at a temperature of 80°C for 14 hours for polymerization. Wherein, the sodium styrene sulfonate and butyl acrylate are resin monomers, the solvent is selected from N.N-dimethylformamide, and the initiator is selected from LPO. The added amount of the resin monomer, solvent and initiator is as follows: the resin monomer accounts for 14% of the total weight, the solvent accounts for 85% of the total weight, and the initiator accounts for 1% of the total weight. After the end of the polymerization reaction, distill under reduced pressure for 4 hours to evaporate most of the solvent; then u...

Embodiment 3

[0063] The preparation method of the conductive solution of the conductive electrode of the present embodiment, its steps are as follows:

[0064] S1. Polymerize styrene sulfonate and acrylate to form a polymer:

[0065] Put calcium styrene sulfonate and butyl acrylate with a ratio of parts by weight of 7:5 into a three-necked flask, then add a solvent and an initiator to react the resin monomer at 100°C for 10 hours for polymerization. Wherein, the calcium styrene sulfonate and butyl acrylate are resin monomers, the solvent is selected from N.N-dimethylacetamide, and the initiator is selected from LPO. The added amount of the resin monomer, solvent and initiator is as follows: the resin monomer accounts for 15% of the total weight, the solvent accounts for 83% of the total weight, and the initiator accounts for 2% of the total weight. After the end of the polymerization reaction, distill under reduced pressure for 6 hours to evaporate most of the solvent; then use deionized ...

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Abstract

A method for preparing a conductive solution of a conductive electrode and a method for preparing a conductive electrode are provided. The method for preparing the conductive solution of a conductiveelectrode comprises forming a first solution by polymerizing acrylate and styrene sulfonate to form a polymer and adding a proper amount of deionized water; then fully dispersing the conductive polymer monome EDOT into the first solution for chemical reaction to form a second solution PEDOT-polymer solution, adding an appropriate amount of an aqueous solution containing silicon to the second solution to form a third solution, and uniformly coating the UV-treated flexible substrate with the third solution in a coating manner, and finally solidifyiung the same. During the solidification, the surface of the flexible substrate on the PEDOT-polymers in the polymer have a natural affinity, so PEDOT-polymer is gradually deposited on the surface of the substrate, the silicon-containing material issqueezed onto the upper lay, so that the effect after curing is that the lower layer is an electrically conductive layer and the surface layer is a hydrolyzed silicon dioxide network, thereby havingan insulating and protective effect.

Description

【Technical field】 [0001] The invention relates to a flexible conductive electrode, in particular to a method for preparing a conductive solution of the conductive electrode and a method for preparing the conductive electrode. 【Background technique】 [0002] For flexible display devices such as flexible LCD and flexible electronic paper, conductive electrodes are usually arranged inside. Such conductive electrodes are typically formed by coating a conductive solution onto a flexible substrate. In the prior art, the conductive solution used for such a flexible transparent conductive electrode is usually a polythiophene solution, which forms a polythiophene conductive layer when coated on a flexible substrate. Existing polythiophene is used as a conductive electrode, which will fail due to contact with moisture in the air or volatile solvents; secondly, the traditional PEDOT / PSS has strong acidity as a whole because it uses PSS as a balance ion, which leads to problems in elec...

Claims

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Application Information

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IPC IPC(8): H01B1/12H01B5/00H01B5/14H01B13/00H01B13/30
CPCH01B1/124H01B5/002H01B5/14H01B13/00H01B13/0016H01B13/0026H01B13/30Y02E60/10
Inventor 吴飞夏亮佘勇
Owner 吴飞
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