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Preparation of transparent conducting film based on nano-silver wires and caboxylated carbon nano-materials

A technology of transparent conductive film and carbon nanomaterials, which is applied to the conductive layer on the insulating carrier, cable/conductor manufacturing, circuit, etc., can solve the problems of complex conductivity and light transmittance in the preparation of transparent conductive films, and achieve transparency and good electrical conductivity

Inactive Publication Date: 2015-09-02
NANXIONG MATERIAL PRODION BASE OF CHINESE ACADEMY OF SCI GUANGZHOU CHEM +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0006] In order to solve the complex preparation of existing transparent conductive films and the lack of conductivity and light transmittance, the present invention proposes a preparation method of transparent conductive films based on nano-silver wires and carboxylated carbon nanomaterials

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  • Preparation of transparent conducting film based on nano-silver wires and caboxylated carbon nano-materials
  • Preparation of transparent conducting film based on nano-silver wires and caboxylated carbon nano-materials

Examples

Experimental program
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Effect test

Embodiment 1

[0030] The preparation of a transparent conductive film based on nano silver wires and carboxylated carbon nanomaterials comprises the following steps:

[0031] (1) In a 250mL single-neck round bottom flask equipped with a magnetic stirrer, add 3g of dry single-armed carbon nanotubes and 15mL of a mixed acid of 60wt% concentrated nitric acid and 45mL of 98wt% concentrated sulfuric acid, and use 150W ultrasonic treatment for 30min before loading The upper spherical condenser and the tail gas absorption tube were heated to 120°C, stirred and refluxed for 2 hours; after the reaction, diluted with 800mL deionized water, filtered with a small 0.22μm mixed fiber microporous membrane, and deionized water Repeated washing several times until neutral, vacuum drying at 60°C for 24 hours to obtain carboxylated carbon nanomaterials;

[0032] (2) In a 150mL beaker, add 20mg of the carboxylated carbon nanomaterial prepared in step (1), then add 50mL of ethanol, 150W ultrasonic dispersion fo...

Embodiment 2

[0036] The preparation of a transparent conductive film based on nano silver wires and carboxylated carbon nanomaterials comprises the following steps:

[0037] (1) In a 100mL single-necked round bottom flask equipped with a magnetic stirrer, add 2g of dry graphene and 10mL of a mixed acid of 60wt% concentrated nitric acid and 30mL of 98wt% concentrated sulfuric acid. Condenser tube and tail gas absorption tube, heated to 120°C, stirred and refluxed for 4 hours; after the reaction, diluted with 400mL deionized water, filtered with a small 0.22μm mixed fiber microporous filter membrane, washed repeatedly with deionized water Secondary to neutral, vacuum drying at 60°C for 24 hours to obtain carboxylated carbon nanomaterials;

[0038] (2) In a 150mL beaker, add 10mg of the carboxylated carbon nanomaterial prepared in step (1), then add 50mL of ethanol, 150W ultrasonic dispersion for 10 minutes, remove the bottom precipitate after standing for 12 hours, and then add Add 50mL of ...

Embodiment 3

[0041] The preparation of a transparent conductive film based on nano silver wires and carboxylated carbon nanomaterials comprises the following steps:

[0042](1) In a 250mL single-necked round-bottomed flask equipped with a magnetic stirrer, add 3g of dry multi-armed carbon nanotubes and a mixed acid of 15mL 60wt% concentrated nitric acid and 45mL 98wt% concentrated sulfuric acid, and use 150W ultrasonic treatment for 30min before loading The upper spherical condenser and tail gas absorption tube are heated to 120°C, stirred and refluxed for 24 hours. After the reaction, dilute with 800mL deionized water, filter with a small 0.22μm mixed fiber microporous filter membrane, and deionized water Repeated washing several times until neutral, vacuum drying at 60°C for 24 hours to obtain carboxylated carbon nanomaterials;

[0043] (2) In a 150mL beaker, add 15mg of the carboxylated carbon nanomaterial prepared in step (1), then add 50mL of ethanol, 150W ultrasonic dispersion for 10...

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Abstract

The invention belongs to the technical field of preparation of conducting materials, and specifically discloses preparation of a transparent conducting film based on nano-silver wires and caboxylated carbon nano-materials. The nano-silver wires can be well dispersed in solvents such as water and alcohols, carbon nano-materials are insoluble and difficult to disperse in water or an organic solvent, after being carboxylated, the carbon nano-materials can be well dispersed in the solvents and are used to prepare a mixed solution together with the nano-silver wires, and thus addition of auxiliaries such as dispersing agents, which makes post-treatment complex, can be effectively avoided. Surfaces of the nano-silver wires have electrophilic characteristics, and thus can be coordinated with atoms rich in electrons through coordination. Carboxyl groups in the prepared carbon nano-materials can be combined with the nano-silver wires, thereby enabling the nano-materials to better contact with the nano-silver wires and eliminating contact resistance to the greatest extent. Influences of the nano-silver wires and the carbon nano-mateirals in the aspect of light transmission are different, and mutual complementation can be realized, thereby enabling light transmission and electrical conductivity to be improved.

Description

technical field [0001] The invention belongs to the technical field of preparation of conductive materials, in particular to a preparation technology of a flexible transparent conductive film, in particular to the preparation of a transparent conductive film based on nano-silver wires and carboxylated carbon nano-materials. Background technique [0002] Transparent conductive film means that the transmittance of visible light in the wavelength range between 380 and 780nm is greater than 80%, and the resistivity is lower than 10 -3 Ω·cm films. At present, the widely used transparent conductive film is mainly prepared on hard substrate materials such as ceramics and glass with ITO as the conductive material. The application of transparent conductive films is limited. In addition, although ITO has been successfully used as a transparent conductive film in optoelectronic devices for more than sixty years, it is completely unsuitable as a material for the preparation of flexibl...

Claims

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Application Information

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IPC IPC(8): H01B13/00H01B5/14
Inventor 胡继文于志伟林树东邹海良涂园园
Owner NANXIONG MATERIAL PRODION BASE OF CHINESE ACADEMY OF SCI GUANGZHOU CHEM
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