Preparation process of hydrogen fuel battery membrane electrode

A fuel cell membrane and preparation process technology, applied in the field of battery membrane electrodes, can solve the problems of limiting the electrochemical performance of the fuel cell, uncontrollable catalyst adhesion strength, unreusable transfer medium, etc., which is beneficial to large-scale production and saves Laying time and the effect of improving electrochemical performance

Active Publication Date: 2017-05-31
KUSN INNOVATION INST OF NANJING UNIV
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  • Abstract
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Problems solved by technology

However, the problem with this method is that the catalyst is affected by temperature and pressure so that the adhesion strength on the film cannot be controlled, and the catalyst on the side of the film and the transfer medium cannot be completely transferred to the film due to uneven force during hot pressing. On the membrane, thereby reducing the utilization rate of the catalyst; at the same time, the transfer

Method used

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  • Preparation process of hydrogen fuel battery membrane electrode

Examples

Experimental program
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Effect test

Embodiment 1

[0022] Put carbon powder and isopropanol into a beaker and ultrasonically mix it for 20 minutes to obtain a carbon powder slurry; then take an appropriate amount of 5% Nafion solution and dilute it with water to obtain a binder slurry; then use 60% Pt / C catalyst, isopropyl Alcohol, 5% Nafion solution to configure the electrocatalyst slurry.

[0023] Take a high-temperature cloth of appropriate size and weigh it first, then place it on the heating platform of the ultrasonic spraying instrument, turn on the vacuum pump to absorb the high-temperature cloth evenly. First spray the toner slurry, after weighing to ensure that the toner loading is 0.6mg / cm 2 ; then spray the catalyst slurry with an anode loading of 0.24 mg / cm 2 , the cathode loading is 0.48mg / cm 2 ;Finally spray Nafion slurry on the catalytic layer with a load of 0.1mg / cm 2 .

[0024] Place two pieces of high-temperature cloth sprayed with different loads of cathode and anode on both sides of the DuPont 211 film,...

Embodiment 2

[0027] Same as Example 1, except that the carbon powder loading becomes 1mg / cm 2 .

Embodiment 3

[0029] Same as Example 1, except that the Nafion load becomes 0.3mg / cm 2 .

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Abstract

The invention discloses a preparation process of a hydrogen fuel battery membrane electrode, and belongs to the field of battery membrane electrodes. The membrane electrode is prepared by the aid of an ultrasonic spraying process and a heat transfer printing process. The preparation process includes the steps: firstly, sequentially spraying a transfer printing medium with carbon powder slurry, electric catalyst slurry and binding agent slurry by the aid of the ultrasonic spraying process; secondly, loading a catalyst layer on a proton exchange membrane by the aid of the heat transfer printing process; finally, performing hot-pressing for self-made diffusion layers by the aid of the ultrasonic spraying process to obtain the membrane electrode. According to the preparation process, the diffusion layers are closely combined by the aid of actions among Nafion slurry, the proton exchange membrane and carbon powder slurry and the diffusion layers, electrochemical performance of the membrane electrode is greatly improved by the aid of the heat transfer printing process, the service life of the membrane electrode is prolonged, the problems such as wrinkle and swelling of the proton exchange membrane are solved, a lot of time for paving and treating the membrane is saved, and mass production of the membrane electrode is facilitated.

Description

technical field [0001] The invention discloses a preparation process of a hydrogen fuel cell membrane electrode, which belongs to the field of battery membrane electrodes. Background technique [0002] The traditional membrane electrode preparation method, that is, the GDE method, is mainly to coat the catalyst on the diffusion layer to form a catalytic layer, and then heat-press the diffusion layer, catalytic layer and proton exchange membrane together through high temperature and high pressure and a certain period of time through a hot pressing process. , forming a membrane electrode. Afterwards, through the development of science and technology, the preparation of the membrane electrode directly transfers the catalytic layer to the proton exchange membrane to form a CCM, which is then hot-pressed with the diffusion layer to form a membrane electrode. The traditional membrane electrode preparation method, that is, the GDE method, prevents the catalyst from being tightly c...

Claims

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Application Information

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IPC IPC(8): H01M8/1004
CPCH01M8/1004Y02E60/50Y02P70/50
Inventor 魏伶俐杨小贞刘建国邹志刚吴聪萍
Owner KUSN INNOVATION INST OF NANJING UNIV
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