Fabrication of High Performing and Durable Nickel-Based Catalyst Coated Diaphragms for Alkaline Water Electrolyzers

Cinar Karacan; Felix P. Lohmann-Richters; Meital Shviro; Gareth P. Keeley; Martin Müller; Marcelo Carmo; Detlef Stolten

doi:10.1149/1945-7111/ac697f

Fabrication of High Performing and Durable Nickel-Based Catalyst Coated Diaphragms for Alkaline Water Electrolyzers

Cinar Karacan
, Felix P. Lohmann-Richters
, Meital Shviro
, Gareth P. Keeley
, Martin Müller
, Marcelo Carmo
, Detlef Stolten

Jülich Research Centre
Université Grenoble Alpes
Queen's University Kingston
RWTH Aachen University

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

In this work, a catalyst coated-diaphragm (CCD) for classical alkaline electrolysis was prepared by the blade-coating method, using Raney nickel as HER catalyst and a Zirfon^®(AGFA Perl UTP 500) diaphragm. Our best CCD reduced the overvoltage in an alkaline single cell by 270 mV at 300 mA cm^-2compared to the benchmark, mainly due to the higher catalytic activity and surface area of the Raney nickel electrode. The new electrode system also showed a low degradation rate of 22 μA cm^-2h^-1after 1000 h at a cell voltage of 2 V. The gas purity tests showed that the CCD has hydrogen in oxygen contamination well below the lower explosion limit, even at low current densities. Therefore, we propose the use of our novel CCD architecture for atmospheric alkaline electrolyzers, which have a partly separated electrolyte cycle.

Original language	English
Article number	054502
Journal	Journal of the Electrochemical Society
Volume	169
Issue number	5
DOIs	https://doi.org/10.1149/1945-7111/ac697f
State	Published - 1 May 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 Electrochemical Society Inc.. All rights reserved.

Funding

The authors gratefully acknowledge support by the HYPOS Hydrogen Power Storage & Solutions East Germany, the Fraunhofer IMWS and Kumatec GmbH in the frame of the ELKE Project, funded by the German Federal Ministry of Education and Research (BMBF). The authors also thank to Norbert Commerscheidt and Andreas Everwand for experimental support.

Funders
Fraunhofer IMWS
Kumatec GmbH
Bundesministerium für Bildung und Forschung

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

Electrocatalysis
Industrial Electrolysis
alkaline Electrolysis
coating
diaphragm
hydrogen evolution

Access to Document

10.1149/1945-7111/ac697f

Cite this

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title = "Fabrication of High Performing and Durable Nickel-Based Catalyst Coated Diaphragms for Alkaline Water Electrolyzers",

abstract = "In this work, a catalyst coated-diaphragm (CCD) for classical alkaline electrolysis was prepared by the blade-coating method, using Raney nickel as HER catalyst and a Zirfon{\textregistered}(AGFA Perl UTP 500) diaphragm. Our best CCD reduced the overvoltage in an alkaline single cell by 270 mV at 300 mA cm-2compared to the benchmark, mainly due to the higher catalytic activity and surface area of the Raney nickel electrode. The new electrode system also showed a low degradation rate of 22 μA cm-2h-1after 1000 h at a cell voltage of 2 V. The gas purity tests showed that the CCD has hydrogen in oxygen contamination well below the lower explosion limit, even at low current densities. Therefore, we propose the use of our novel CCD architecture for atmospheric alkaline electrolyzers, which have a partly separated electrolyte cycle.",

keywords = "Electrocatalysis, Industrial Electrolysis, alkaline Electrolysis, coating, diaphragm, hydrogen evolution",

author = "Cinar Karacan and Lohmann-Richters, \{Felix P.\} and Meital Shviro and Keeley, \{Gareth P.\} and Martin M{\"u}ller and Marcelo Carmo and Detlef Stolten",

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doi = "10.1149/1945-7111/ac697f",

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AU - Karacan, Cinar

AU - Lohmann-Richters, Felix P.

AU - Shviro, Meital

AU - Keeley, Gareth P.

AU - Müller, Martin

AU - Carmo, Marcelo

AU - Stolten, Detlef

PY - 2022/5/1

Y1 - 2022/5/1

N2 - In this work, a catalyst coated-diaphragm (CCD) for classical alkaline electrolysis was prepared by the blade-coating method, using Raney nickel as HER catalyst and a Zirfon®(AGFA Perl UTP 500) diaphragm. Our best CCD reduced the overvoltage in an alkaline single cell by 270 mV at 300 mA cm-2compared to the benchmark, mainly due to the higher catalytic activity and surface area of the Raney nickel electrode. The new electrode system also showed a low degradation rate of 22 μA cm-2h-1after 1000 h at a cell voltage of 2 V. The gas purity tests showed that the CCD has hydrogen in oxygen contamination well below the lower explosion limit, even at low current densities. Therefore, we propose the use of our novel CCD architecture for atmospheric alkaline electrolyzers, which have a partly separated electrolyte cycle.

AB - In this work, a catalyst coated-diaphragm (CCD) for classical alkaline electrolysis was prepared by the blade-coating method, using Raney nickel as HER catalyst and a Zirfon®(AGFA Perl UTP 500) diaphragm. Our best CCD reduced the overvoltage in an alkaline single cell by 270 mV at 300 mA cm-2compared to the benchmark, mainly due to the higher catalytic activity and surface area of the Raney nickel electrode. The new electrode system also showed a low degradation rate of 22 μA cm-2h-1after 1000 h at a cell voltage of 2 V. The gas purity tests showed that the CCD has hydrogen in oxygen contamination well below the lower explosion limit, even at low current densities. Therefore, we propose the use of our novel CCD architecture for atmospheric alkaline electrolyzers, which have a partly separated electrolyte cycle.

KW - Electrocatalysis

KW - Industrial Electrolysis

KW - alkaline Electrolysis

KW - coating

KW - diaphragm

KW - hydrogen evolution

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ER -

Fabrication of High Performing and Durable Nickel-Based Catalyst Coated Diaphragms for Alkaline Water Electrolyzers

Abstract

Bibliographical note

Funding

UN SDGs

Keywords

Access to Document

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