[PDF][PDF] Status and perspectives of key materials for PEM electrolyzer

K Zhang, X Liang, L Wang, K Sun… - Nano Res …, 2022‏ - pdfs.semanticscholar.org
Proton exchange membrane water electrolyzer (PEMWE) represents a promising
technology for the sustainable production of hydrogen, which is capable of efficiently …

Critical and strategic raw materials for electrolysers, fuel cells, metal hydrides and hydrogen separation technologies

E Eikeng, A Makhsoos, BG Pollet - International Journal of Hydrogen …, 2024‏ - Elsevier
This paper provides an in-depth examination of critical and strategic raw materials (CRMs)
and their crucial role in the development of electrolyzer and fuel cell technologies within the …

[HTML][HTML] Prospective LCA of alkaline and PEM electrolyser systems

S Krishnan, B Corona, GJ Kramer, M Junginger… - International Journal of …, 2024‏ - Elsevier
This prospective life cycle assessment (LCA) compares the environmental impacts of
alkaline electrolyser (AE) and proton exchange membrane (PEM) electrolyser systems for …

Exergetic life cycle assessment for green hydrogen production

J Gerhardt-Mörsdorf, J Incer-Valverde, T Morosuk… - Energy, 2024‏ - Elsevier
Life cycle assessment (LCA) is a method for assessing the environmental impacts of
products and processes. The life cycle inventory provides a measure of the quantitative …

Water splitting via electrocatalysis and photocatalysis: engineering stumbling blocks and advancements

D Singh, S Kumawat, A Saini, P Sonia, A Goyal… - International Journal of …, 2024‏ - Elsevier
Renewable green hydrogen is produced using solar or wind-powered photocatalysis and
electrocatalysis of water. In today's world, more than a third of nations have national plans …

Conductive polymer and nanoparticle-promoted polymer hybrid coatings for metallic bipolar plates in proton membrane exchange water electrolysis

G Liu, F Hou, X Wang, B Fang - Applied Sciences, 2023‏ - mdpi.com
Proton exchange membrane water electrolysis (PEMWE) is a green hydrogen production
technology with great development prospects. As an important part of PEMWE, bipolar …

Life Cycle Assessment of a 5 MW Polymer Exchange Membrane Water Electrolysis Plant

J Gerhardt-Mörsdorf, F Peterssen… - Advanced Energy …, 2024‏ - Wiley Online Library
This study performs a cradle‐to‐grave life cycle assessment of a 5 MW proton exchange
membrane water electrolysis plant. The analysis follows a thorough engineering‐based …

Resource-Efficient Gigawatt Water Electrolysis in Germany—A Circular Economy Potential Analysis

L Matz, B Bensmann, R Hanke-Rauschenbach… - Circular Economy and …, 2024‏ - Springer
Green hydrogen will play a key role in the future energy system. For the production of green
hydrogen, an installation of alkaline (AWE) and proton exchange membrane water …

[HTML][HTML] Catalyst dissolution in PEM water electrolysis: Influence of time, current density and Iridium ion transport in single-pass and recirculation water flow modes

AP Dam, T Franz, G Papakonstantinou… - Applied Catalysis B …, 2025‏ - Elsevier
The current study targets three major aspects central to the phenomenon of Iridium (Ir)
catalyst dissolution in polymer electrolyte membrane water electrolyzers; the stabilization …

Development of IrO2–WO3 Composite Catalysts from Waste WC–Co Wire Drawing Die for PEM Water Electrolyzers' Oxygen Evolution Reactions

IN Uzgören, B Hüner, S Yıldırım… - ACS Sustainable …, 2022‏ - ACS Publications
Recycling waste materials as catalysts in the oxygen evolution reaction (OER) offers an
innovative approach to reducing catalyst costs. Scrap tungsten carbide–cobalt (WC–Co) die …