Benchmarking high surface area electrocatalysts in a gas diffusion electrode: measurement of oxygen reduction activities under realistic conditions

Masanori Inaba; Anders Westergaard Jensen; Gustav Wilhelm Sievers; Maria Escudero Escribano; Alessandro Zana; Matthias Arenz

doi:10.1039/C8EE00019K

Benchmarking high surface area electrocatalysts in a gas diffusion electrode: measurement of oxygen reduction activities under realistic conditions

Masanori Inaba, Anders Westergaard Jensen, Gustav Wilhelm Sievers, Maria Escudero Escribano, Alessandro Zana, Matthias Arenz

Department of Chemistry

50 Citations (Scopus)

Abstract

In this work, we introduce the application of gas diffusion electrodes (GDE) for benchmarking the electrocatalytic performance of high surface area fuel cell catalysts. It is demonstrated that GDEs offer several inherent advantages over the state-of-the-art technique, i.e. thin film rotating disk electrode (TF-RDE) measurements for fast fuel cell catalyst evaluation. The most critical advantage is reactant mass transport. While in RDE measurements the reactant mass transport is severely limited by the gas solubility of the reactant in the electrolyte, GDEs enable reactant transport rates similar to technical fuel cell devices. Hence, in contrast to TF-RDE measurements, performance data obtained from GDE measurements can be directly compared to membrane electrode assembly (MEA) tests. Therefore, the application of GDEs for the testing of fuel cell catalysts closes the gap between catalyst research in academia and real applications.

Original language	English
Journal	Energy & Environmental Science
Volume	11
Pages (from-to)	988-994
Number of pages	7
ISSN	1754-5692
DOIs	https://doi.org/10.1039/C8EE00019K
Publication status	Published - Apr 2018

Access to Document

10.1039/C8EE00019K

Cite this

Benchmarking high surface area electrocatalysts in a gas diffusion electrode: measurement of oxygen reduction activities under realistic conditions . / Inaba, Masanori; Jensen, Anders Westergaard; Sievers, Gustav Wilhelm et al.
In: Energy & Environmental Science, Vol. 11, 04.2018, p. 988-994.

Research output: Contribution to journal › Journal article › Research › peer-review

@article{5c56c11725004e0fb4b50650c48b3775,

title = "Benchmarking high surface area electrocatalysts in a gas diffusion electrode: measurement of oxygen reduction activities under realistic conditions ",

abstract = "In this work, we introduce the application of gas diffusion electrodes (GDE) for benchmarking the electrocatalytic performance of high surface area fuel cell catalysts. It is demonstrated that GDEs offer several inherent advantages over the state-of-the-art technique, i.e. thin film rotating disk electrode (TF-RDE) measurements for fast fuel cell catalyst evaluation. The most critical advantage is reactant mass transport. While in RDE measurements the reactant mass transport is severely limited by the gas solubility of the reactant in the electrolyte, GDEs enable reactant transport rates similar to technical fuel cell devices. Hence, in contrast to TF-RDE measurements, performance data obtained from GDE measurements can be directly compared to membrane electrode assembly (MEA) tests. Therefore, the application of GDEs for the testing of fuel cell catalysts closes the gap between catalyst research in academia and real applications.",

author = "Masanori Inaba and Jensen, {Anders Westergaard} and Sievers, {Gustav Wilhelm} and {Escudero Escribano}, Maria and Alessandro Zana and Matthias Arenz",

year = "2018",

month = apr,

doi = "10.1039/C8EE00019K",

language = "English",

volume = "11",

pages = "988--994",

journal = "Energy & Environmental Science",

issn = "1754-5692",

publisher = "Royal Society of Chemistry",

}

TY - JOUR

T1 - Benchmarking high surface area electrocatalysts in a gas diffusion electrode

T2 - measurement of oxygen reduction activities under realistic conditions

AU - Inaba, Masanori

AU - Jensen, Anders Westergaard

AU - Sievers, Gustav Wilhelm

AU - Escudero Escribano, Maria

AU - Zana, Alessandro

AU - Arenz, Matthias

PY - 2018/4

Y1 - 2018/4

N2 - In this work, we introduce the application of gas diffusion electrodes (GDE) for benchmarking the electrocatalytic performance of high surface area fuel cell catalysts. It is demonstrated that GDEs offer several inherent advantages over the state-of-the-art technique, i.e. thin film rotating disk electrode (TF-RDE) measurements for fast fuel cell catalyst evaluation. The most critical advantage is reactant mass transport. While in RDE measurements the reactant mass transport is severely limited by the gas solubility of the reactant in the electrolyte, GDEs enable reactant transport rates similar to technical fuel cell devices. Hence, in contrast to TF-RDE measurements, performance data obtained from GDE measurements can be directly compared to membrane electrode assembly (MEA) tests. Therefore, the application of GDEs for the testing of fuel cell catalysts closes the gap between catalyst research in academia and real applications.

AB - In this work, we introduce the application of gas diffusion electrodes (GDE) for benchmarking the electrocatalytic performance of high surface area fuel cell catalysts. It is demonstrated that GDEs offer several inherent advantages over the state-of-the-art technique, i.e. thin film rotating disk electrode (TF-RDE) measurements for fast fuel cell catalyst evaluation. The most critical advantage is reactant mass transport. While in RDE measurements the reactant mass transport is severely limited by the gas solubility of the reactant in the electrolyte, GDEs enable reactant transport rates similar to technical fuel cell devices. Hence, in contrast to TF-RDE measurements, performance data obtained from GDE measurements can be directly compared to membrane electrode assembly (MEA) tests. Therefore, the application of GDEs for the testing of fuel cell catalysts closes the gap between catalyst research in academia and real applications.

U2 - 10.1039/C8EE00019K

DO - 10.1039/C8EE00019K

M3 - Journal article

SN - 1754-5692

VL - 11

SP - 988

EP - 994

JO - Energy & Environmental Science

JF - Energy & Environmental Science

ER -

Benchmarking high surface area electrocatalysts in a gas diffusion electrode: measurement of oxygen reduction activities under realistic conditions

Abstract

Access to Document

Fingerprint

Cite this