Advanced Energy Materials

, volume 11 , issue 37 , pages 2101025

Engineering Catalyst Layers for Next‐Generation Polymer Electrolyte Fuel Cells: A Review of Design, Materials, and Methods

Theo Suter ¹

Keenan Smith ¹

Jennifer Hack ¹

Lara Rasha ¹

Zahra Rana ¹

Gyen Ming A Angel ¹

Paul R. Shearing ¹

Thomas Samuel Miller ¹

Dan J.L. Brett ¹

Hide authors affiliations Show authors affiliations: 1 affiliation

Electrochemical Innovation Lab Department of Chemical Engineering University College London London WC1H 0AJ UK |

Publication type: Journal Article

Publication date: 2021-08-26

Wiley

Advanced Energy Materials

scimago Q1

wos Q1

SJR: 8.378

CiteScore: 40.7

Impact factor: 26.0

ISSN: 16146832, 16146840

DOI: 10.1002/aenm.202101025

Copy DOI

General Materials Science

Renewable Energy, Sustainability and the Environment

Abstract

Polymer electrolyte fuel cells (PEFCs) are a promising replacement for the fossil fuel–dependent automotive and energy sectors. They have become increasingly commercialized in the last decade; however, significant limitations on durability and performance limit their commercial uptake. Catalyst layer (CL) design is commonly reported to impact device power density and durability; although, a consensus is rarely reached due to differences in testing conditions, experimental design, and types of data reported. This is further exacerbated by aspects of CL design such as catalyst support, proton conduction, catalyst, fabrication, and morphology, being significantly interdependent; hence, a wider appreciation is required in order to optimize performance, improve durability, and reduce costs. Here, the cutting-edge research within the field of PEFCs is reviewed, investigating the effect of different manufacturing techniques, electrolyte distribution, support materials, surface chemistries, and total porosity on power density and durability. These are critically appraised from an applied perspective to inform the most relevant and promising pathways to make and test commercially viable cells. This holistic view of the competing aspects of CL design and preparation will facilitate the development of optimized CLs, especially the incorporation of novel catalyst support materials.

Found

3 citations

Guterman Vladimir

🥼 🤝

DSc in Chemistry, professor

99 publications, 1 349 citations, 7 reviews

h-index: 22

Southern Federal University

Research interests

Aluminum

Nanoparticles

3 citations

Paperzh Kirill

PhD in Chemistry

32 publications, 205 citations, 1 review

h-index: 9

Southern Federal University

Research interests

Catalysis

Fuel cells

Heterogeneous catalysis

Hydrogen energy

Ultrafine catalysts

2 citations

Alekseenko Anastasia

🥼 🤝

PhD in Chemistry

77 publications, 690 citations, 6 reviews

h-index: 15

Southern Federal University

2 citations

Gerasimova Irina

6 publications, 14 citations

h-index: 2

Southern Federal University

1 citation

Belenov Sergey

PhD in Chemistry

71 publications, 830 citations

h-index: 16

Southern Federal University

1 citation

Mogychih Elizaveta

🥼 🤝

PhD in Chemistry

27 publications, 168 citations

h-index: 6

Southern Federal University

Oxygen reduction reaction

Production of hydrogen

Water electrolysis

1 citation

Shmygleva Lyubovy

🥼

PhD in Chemistry

39 publications, 813 citations

h-index: 12

Federal Research Center of Problem of Chemical Physics and Medicinal Chemistry RAS

Research interests

Chemical current sources

Lithium-ion batteries

Physical Chemistry

Plasma chemistry

Renewable Energy Sources

Sodium-ion batteries

1 citation

Astravuh Yana

3 publications, 3 citations

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194

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GOST |

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GOST Copy

Suter T. et al. Engineering Catalyst Layers for Next‐Generation Polymer Electrolyte Fuel Cells: A Review of Design, Materials, and Methods // Advanced Energy Materials. 2021. Vol. 11. No. 37. p. 2101025.

GOST all authors (up to 50) Copy

Suter T., Smith K., Hack J., Rasha L., Rana Z., Angel G. M. A., Shearing P. R., Miller T. S., Brett D. J. Engineering Catalyst Layers for Next‐Generation Polymer Electrolyte Fuel Cells: A Review of Design, Materials, and Methods // Advanced Energy Materials. 2021. Vol. 11. No. 37. p. 2101025.

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1002/aenm.202101025

UR - https://doi.org/10.1002/aenm.202101025

TI - Engineering Catalyst Layers for Next‐Generation Polymer Electrolyte Fuel Cells: A Review of Design, Materials, and Methods

T2 - Advanced Energy Materials

AU - Suter, Theo

AU - Smith, Keenan

AU - Hack, Jennifer

AU - Rasha, Lara

AU - Rana, Zahra

AU - Angel, Gyen Ming A

AU - Shearing, Paul R.

AU - Miller, Thomas Samuel

AU - Brett, Dan J.L.

PY - 2021

DA - 2021/08/26

PB - Wiley

SP - 2101025

IS - 37

VL - 11

SN - 1614-6832

SN - 1614-6840

ER -

BibTex |

Cite this

BibTex (up to 50 authors) Copy

@article{2021_Suter,

author = {Theo Suter and Keenan Smith and Jennifer Hack and Lara Rasha and Zahra Rana and Gyen Ming A Angel and Paul R. Shearing and Thomas Samuel Miller and Dan J.L. Brett},

title = {Engineering Catalyst Layers for Next‐Generation Polymer Electrolyte Fuel Cells: A Review of Design, Materials, and Methods},

journal = {Advanced Energy Materials},

year = {2021},

volume = {11},

publisher = {Wiley},

month = {aug},

url = {https://doi.org/10.1002/aenm.202101025},

number = {37},

pages = {2101025},

doi = {10.1002/aenm.202101025}

}

MLA

Cite this

MLA Copy

Suter, Theo, et al. “Engineering Catalyst Layers for Next‐Generation Polymer Electrolyte Fuel Cells: A Review of Design, Materials, and Methods.” Advanced Energy Materials, vol. 11, no. 37, Aug. 2021, p. 2101025. https://doi.org/10.1002/aenm.202101025.

Publisher

Wiley

Journal

Advanced Energy Materials

scimago Q1

wos Q1

SJR

8.378

CiteScore

40.7

Impact factor

26.0

ISSN

16146832 (Print)

16146840 (Electronic)