Nafion/PTFE Composite Membranes for a High Temperature PEM Fuel Cell Application

Xiaoxiao Zhang; Dung Trieu; Dong Zheng; Weixiao Ji; Huainan Qu; Tianyao Ding; Dantong Qiu; Deyang Qu

doi:10.1021/acs.iecr.1c01447

Nafion/PTFE Composite Membranes for a High Temperature PEM Fuel Cell Application

Xiaoxiao Zhang, Dung Trieu, Dong Zheng, Weixiao Ji, Huainan Qu, Tianyao Ding, Dantong Qiu, Deyang Qu^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

23 引用（Scopus）

摘要

The main bottlenecks for the application of polymer electrolyte fuel cells in electric vehicles are the high cost and the inferior performance of Nafion at high temperatures above 80 °C. In this work, composite membranes made by infiltrating Nafion in various PTFE fibrous substrates were prepared, characterized, and assessed for a single fuel cell performance. Prepared by a simple dip-coating method, the composite membrane exhibited satisfactory mechanical strength and thermal stability with the incorporation of a PTFE backbone, which can suppress the swelling of the Nafion component. The durability of the composite membranes in terms of through-plane conductivity after boiling at 120 °C was comparable to that of Nafion117. Moreover, the Nafion/PTFE membrane was able to achieve higher through-plane conductivity than Nafion117 at higher temperatures of 100 °C, indicating potential application in high temperature condition.

源语言	英语
页（从-至）	11086-11094
页数	9
期刊	Industrial and Engineering Chemistry Research
卷	60
期	30
DOI	https://doi.org/10.1021/acs.iecr.1c01447
出版状态	已出版 - 4 8月 2021
已对外发布	是

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title = "Nafion/PTFE Composite Membranes for a High Temperature PEM Fuel Cell Application",

abstract = "The main bottlenecks for the application of polymer electrolyte fuel cells in electric vehicles are the high cost and the inferior performance of Nafion at high temperatures above 80 °C. In this work, composite membranes made by infiltrating Nafion in various PTFE fibrous substrates were prepared, characterized, and assessed for a single fuel cell performance. Prepared by a simple dip-coating method, the composite membrane exhibited satisfactory mechanical strength and thermal stability with the incorporation of a PTFE backbone, which can suppress the swelling of the Nafion component. The durability of the composite membranes in terms of through-plane conductivity after boiling at 120 °C was comparable to that of Nafion117. Moreover, the Nafion/PTFE membrane was able to achieve higher through-plane conductivity than Nafion117 at higher temperatures of 100 °C, indicating potential application in high temperature condition.",

author = "Xiaoxiao Zhang and Dung Trieu and Dong Zheng and Weixiao Ji and Huainan Qu and Tianyao Ding and Dantong Qiu and Deyang Qu",

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AU - Zhang, Xiaoxiao

AU - Trieu, Dung

AU - Zheng, Dong

AU - Ji, Weixiao

AU - Qu, Huainan

AU - Ding, Tianyao

AU - Qiu, Dantong

AU - Qu, Deyang

PY - 2021/8/4

Y1 - 2021/8/4

N2 - The main bottlenecks for the application of polymer electrolyte fuel cells in electric vehicles are the high cost and the inferior performance of Nafion at high temperatures above 80 °C. In this work, composite membranes made by infiltrating Nafion in various PTFE fibrous substrates were prepared, characterized, and assessed for a single fuel cell performance. Prepared by a simple dip-coating method, the composite membrane exhibited satisfactory mechanical strength and thermal stability with the incorporation of a PTFE backbone, which can suppress the swelling of the Nafion component. The durability of the composite membranes in terms of through-plane conductivity after boiling at 120 °C was comparable to that of Nafion117. Moreover, the Nafion/PTFE membrane was able to achieve higher through-plane conductivity than Nafion117 at higher temperatures of 100 °C, indicating potential application in high temperature condition.

AB - The main bottlenecks for the application of polymer electrolyte fuel cells in electric vehicles are the high cost and the inferior performance of Nafion at high temperatures above 80 °C. In this work, composite membranes made by infiltrating Nafion in various PTFE fibrous substrates were prepared, characterized, and assessed for a single fuel cell performance. Prepared by a simple dip-coating method, the composite membrane exhibited satisfactory mechanical strength and thermal stability with the incorporation of a PTFE backbone, which can suppress the swelling of the Nafion component. The durability of the composite membranes in terms of through-plane conductivity after boiling at 120 °C was comparable to that of Nafion117. Moreover, the Nafion/PTFE membrane was able to achieve higher through-plane conductivity than Nafion117 at higher temperatures of 100 °C, indicating potential application in high temperature condition.

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Nafion/PTFE Composite Membranes for a High Temperature PEM Fuel Cell Application

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