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Method for preparation of membrane electrode of proton exchange film fuel cells

A proton exchange membrane and fuel cell membrane technology, which is applied to fuel cell parts, fuel cells, battery electrodes, etc., can solve the problems of poor power generation performance of proton exchange membrane fuel cell membrane electrodes, and achieve uniform electrochemical reactions, Uniform thickness and improved power generation performance

Active Publication Date: 2010-12-08
BYD CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The purpose of the present invention is to provide a method for preparing a proton exchange membrane fuel cell membrane electrode capable of obtaining a membrane electrode with good power generation performance in order to overcome the disadvantage of poor power generation performance of the proton exchange membrane fuel cell membrane electrode obtained by the existing method

Method used

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  • Method for preparation of membrane electrode of proton exchange film fuel cells
  • Method for preparation of membrane electrode of proton exchange film fuel cells
  • Method for preparation of membrane electrode of proton exchange film fuel cells

Examples

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preparation example Construction

[0015] According to the preparation method of the membrane electrode provided by the present invention, the specific preparation method of the membrane electrode includes but not limited to the following two:

[0016] (1) Conductive agent slurry is coated on conductive substrate, obtains diffusion layer; Catalyst slurry is screen-printed on the obtained diffusion layer, obtains catalyst layer; Catalyst layer, diffusion layer and proton exchange membrane lamination then , so that the catalytic layer is located between the diffusion layer and the proton exchange membrane;

[0017] (2) The conductive agent slurry screen is coated on the conductive substrate to obtain the diffusion layer; the catalyst slurry is screen-printed on the proton exchange membrane to obtain the catalytic layer; then the catalytic layer, the diffusion layer and the proton exchange membrane layer combined so that the catalytic layer is located between the diffusion layer and the proton exchange membrane. ...

Embodiment 1

[0030] This example is used to illustrate the preparation method of the proton exchange membrane fuel cell membrane electrode provided by the present invention.

[0031]Carbon paper (Toray TGP-H-060, Japan) was used as the conductive substrate. The conductive base is placed on the vacuum adsorption platform of the screen printing machine, the screen printing plate (40 mesh nylon mesh, the thickness of the screen printing plate is 25 microns) is covered on the conductive base, and the conductive agent paste (containing weight Carbon black, polytetrafluoroethylene, and ethanol at a ratio of 1:0.08:4) were printed onto the conductive substrate with a thickness of 7 microns in one printing. Every printing, after drying at 120° C. with an infrared heating device, the second printing was performed until the thickness of the diffusion layer was 49. Sinter at 350°C for 30 minutes.

[0032] Place the conductive substrate with the printed diffusion layer on the vacuum adsorption platf...

Embodiment 2

[0040] This example is used to test the performance of the membrane electrode prepared in Example 1.

[0041] The membrane electrode b1 prepared in Example 1 was assembled into a fuel cell A1 with a battery separator, and the output voltage and output power of the above-mentioned activated fuel cell at different current densities were measured according to the following method: the fuel cell was connected to an external power supply Connect and connect a current stabilizer in series with the circuit, close the external power switch, adjust the current of the external power supply, and start to discharge the battery. , recorded as the initial voltage, then change the discharge current density of the battery, and record the output voltage of the battery at different discharge current densities, the results are as follows figure 1 As shown, and calculate the product of the discharge current density of the battery and the output voltage at the discharge current density is the outp...

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Abstract

The invention discloses a method for preparing the membrane electrode of a proton-exchange membrane fuel battery, including the preparation of a diffusion layer. Catalyst slurry is used to prepare a catalyst layer by screen printing; the catalyst layer and the proton-exchange layer are combined, so that the catalyst layer is located between the diffusion layer and the proton-exchange layer, wherein, the fixed content of the catalyst slurry is 5-15 weight percent. In accordance with the method, the fixed content of catalyst slurry is 5-15 weight percent, the printing precision of catalyst layer can be controlled within 0.5-3 nanometers during the process of catalyst layer preparation by screen printing, thereby, the thickness of the catalyst layer is more even and the electrochemical reaction of the membrane electrode can be conducted more evenly. As a result, the power generating capability of the membrane electrode is improved.

Description

technical field [0001] The invention relates to a method for preparing a membrane electrode of a proton exchange membrane fuel cell. Background technique [0002] A fuel cell is a power generation device that converts chemical energy directly into electrical energy. It can be used as a power source for household power supplies, small and medium-sized power stations, portable electronic devices, and power sources for electric vehicles, aerospace, and submarines. Fuel cells have the advantages of high energy density, high energy conversion efficiency, and environmental protection, and are considered to be an efficient, energy-saving, and environmentally friendly power generation technology in the 21st century. [0003] Among them, the membrane electrode of the proton exchange membrane fuel cell is the core component, and the membrane electrode generally includes the proton exchange membrane and the catalytic layer. At present, the preparation method of the membrane electrode ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M4/88H01M8/02H01M8/1004
CPCY02E60/50
Inventor 翟玉清董俊卿
Owner BYD CO LTD