Cost-Effective Bimetallic Catalysts for Green H2 Production in Anion Exchange Membrane Water Electrolyzers
Sabrina Campagna Zignani, Marta Fazio, Mariarosaria Pascale, Chiara Alessandrello, Claudia Triolo, Maria Grazia Musolino, Saveria Santangelo

TL;DR
This paper presents a scalable and cost-effective method to produce bimetallic catalysts for green hydrogen production using anion exchange membrane water electrolyzers.
Contribution
A simple and scalable synthesis process for efficient NiCo- and NiFe-based electrocatalysts for AEMWE is introduced.
Findings
Highly pure and finely grained electrocatalysts yield higher current densities at lower overpotentials.
The best membrane electrode assembly achieved 1 A cm−2 at 2.15 V during a 150 h stability test.
Low series resistance and high current density at the cut-off voltage were maintained throughout the test.
Abstract
Green hydrogen production from water electrolysis (WE) is one of the most promising technologies to realize a decarbonized future and efficiently utilize intermittent renewable energy. Among the various WE technologies, the emerging anion exchange membrane (AEMWE) technology shows the greatest potential for producing green hydrogen at a competitive price. To achieve this goal, simple methods for the large-scale synthesis of efficient and low-cost electrocatalysts are needed. This paper proposes a very simple and scalable process for the synthesis of nanostructured NiCo- and NiFe-based electrode materials for a zero-gap AEMWE full cell. For the preparation of the cell anode, oxides with different Ni molar fractions (0.50 or 0.85) are synthesized by the sol–gel method, followed by calcination in air at different temperatures (400 or 800 °C). To fabricate the cell cathode, the oxides are…
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Taxonomy
TopicsHybrid Renewable Energy Systems · Hydrogen Storage and Materials · Electrocatalysts for Energy Conversion
