Polypyrrole nanowire networks as anodic micro-porous layer for passive direct methanol fuel cells

Huijuan Wu; Ting Yuan; Qinghong Huang; Haifeng Zhang; Zhiqing Zou; Junwei Zheng; Hui Yang

doi:10.1016/j.electacta.2014.06.149

Polypyrrole nanowire networks as anodic micro-porous layer for passive direct methanol fuel cells

Huijuan Wu, Ting Yuan, Qinghong Huang, Haifeng Zhang, Zhiqing Zou, Junwei Zheng, Hui Yang

科研成果: 期刊稿件 › 文章 › 同行评审

32 引用（Scopus）

摘要

Polypyrrole nanowire networks (PPNNs), as anodic micro-porous layer (MPL) of passive direct methanol fuel cells (DMFCs), are grown in-situ on the surface of carbon paper through an electrochemical polymerization. Passive DMFC with the novel MPL achieves a 28.3% increment in maximum power density from 33.9 mW cm^-2 to 43.5 mW cm^-2 compared with the conventional layer with similar PtRu(1:1) loading of 2.0 mg cm^-2 and operating with 4 M methanol solution at 25 °C. When the PtRu loading is decreased to 1.0 mg cm^-2, the maximum power density of the DMFC still reaches 34.3 mWcm^-2, which shows a comparative value with the conventional layer. The enhanced performance should be ascribed to the introduction of PPNNs, significantly improves catalyst utilization and mass transfer of methanol on the anode.

源语言	英语
页（从-至）	1-5
页数	5
期刊	Electrochimica Acta
卷	141
DOI	https://doi.org/10.1016/j.electacta.2014.06.149
出版状态	已出版 - 20 9月 2014
已对外发布	是

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title = "Polypyrrole nanowire networks as anodic micro-porous layer for passive direct methanol fuel cells",

abstract = "Polypyrrole nanowire networks (PPNNs), as anodic micro-porous layer (MPL) of passive direct methanol fuel cells (DMFCs), are grown in-situ on the surface of carbon paper through an electrochemical polymerization. Passive DMFC with the novel MPL achieves a 28.3% increment in maximum power density from 33.9 mW cm-2 to 43.5 mW cm-2 compared with the conventional layer with similar PtRu(1:1) loading of 2.0 mg cm-2 and operating with 4 M methanol solution at 25 °C. When the PtRu loading is decreased to 1.0 mg cm-2, the maximum power density of the DMFC still reaches 34.3 mWcm-2, which shows a comparative value with the conventional layer. The enhanced performance should be ascribed to the introduction of PPNNs, significantly improves catalyst utilization and mass transfer of methanol on the anode.",

keywords = "Anodic micro-porous layer, Direct methanol fuel cell, In-situ growth, Polypyrrole nanowire network",

author = "Huijuan Wu and Ting Yuan and Qinghong Huang and Haifeng Zhang and Zhiqing Zou and Junwei Zheng and Hui Yang",

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T1 - Polypyrrole nanowire networks as anodic micro-porous layer for passive direct methanol fuel cells

AU - Wu, Huijuan

AU - Yuan, Ting

AU - Huang, Qinghong

AU - Zhang, Haifeng

AU - Zou, Zhiqing

AU - Zheng, Junwei

AU - Yang, Hui

PY - 2014/9/20

Y1 - 2014/9/20

N2 - Polypyrrole nanowire networks (PPNNs), as anodic micro-porous layer (MPL) of passive direct methanol fuel cells (DMFCs), are grown in-situ on the surface of carbon paper through an electrochemical polymerization. Passive DMFC with the novel MPL achieves a 28.3% increment in maximum power density from 33.9 mW cm-2 to 43.5 mW cm-2 compared with the conventional layer with similar PtRu(1:1) loading of 2.0 mg cm-2 and operating with 4 M methanol solution at 25 °C. When the PtRu loading is decreased to 1.0 mg cm-2, the maximum power density of the DMFC still reaches 34.3 mWcm-2, which shows a comparative value with the conventional layer. The enhanced performance should be ascribed to the introduction of PPNNs, significantly improves catalyst utilization and mass transfer of methanol on the anode.

AB - Polypyrrole nanowire networks (PPNNs), as anodic micro-porous layer (MPL) of passive direct methanol fuel cells (DMFCs), are grown in-situ on the surface of carbon paper through an electrochemical polymerization. Passive DMFC with the novel MPL achieves a 28.3% increment in maximum power density from 33.9 mW cm-2 to 43.5 mW cm-2 compared with the conventional layer with similar PtRu(1:1) loading of 2.0 mg cm-2 and operating with 4 M methanol solution at 25 °C. When the PtRu loading is decreased to 1.0 mg cm-2, the maximum power density of the DMFC still reaches 34.3 mWcm-2, which shows a comparative value with the conventional layer. The enhanced performance should be ascribed to the introduction of PPNNs, significantly improves catalyst utilization and mass transfer of methanol on the anode.

KW - Anodic micro-porous layer

KW - Direct methanol fuel cell

KW - In-situ growth

KW - Polypyrrole nanowire network

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JO - Electrochimica Acta

JF - Electrochimica Acta

ER -

Polypyrrole nanowire networks as anodic micro-porous layer for passive direct methanol fuel cells

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