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Hybrid cathode enables scalable high-performance hydrogen generation

Hybrid cathode enables scalable high-performance hydrogen generation
The hybrid cathode for high-performance hydrogen generation. Credit: NIMTE

A research group led by Prof. Lu Zhiyi from the Ningbo Institute of Materials Technology and Engineering (NIMTE) of the Chinese Academy of Sciences (CAS) has proposed a facile and cost-effective strategy to synthesize a hybrid cathode to achieve high-performance seawater electrolysis for hydrogen generation. The study was published in Advanced Functional Materials.

Hydrogen can be generated through seawater electrolysis, which helps conserve freshwater supplies and is therefore considered a sustainable energy conversion and storage strategy.

Seawater electrolysis, powered by offshore renewable energy sources such as solar, wind and , is a promising critical pathway to green hydrogen production, contributing to the goal of "carbon peaking and carbon neutrality." However, the complex fluctuation of offshore renewable energy under has limited the performance of .

In view of this, the researchers proposed a facile strategy involving etching, sulfuration, and electrodeposition to synthesize a Cu2S@NiS@Ni/NiMo on the scale of 10 × 10 cm2.

The hybrid cathode exhibited superior hydrogen evolution performance with overpotentials of 190 and 250 mV at a of 1,000 mA cm-2 in alkaline artificial seawater and real seawater, respectively.

In addition, the superaerophobic nanoarray structure enables hydrogen mass transport even at high current density.

Under steady-state conditions, the developed cathode showed negligible overpotential loss after more than 2,000 h at 500 mA cm-2, indicating the excellent stability of the cathode.

Despite the complex fluctuation of offshore renewable energy, the hybrid cathode showed great anti-corrosion characteristics, with an endurance of 1,500 h under accelerated start/stop practical conditions.

This work has provided an efficient method to synthesize high-performance cathodes for industrial scale-up hydrogen generation through seawater electrolysis.

Moreover, the evaluation of performance and costs has illuminated the great potential of the synthesized cathode in industrial scale-up sustainable hydrogen production.

More information: Wenwen Xu et al, Scalable Fabrication of Cu2S@NiS@Ni/NiMo Hybrid Cathode for High‐Performance Seawater Electrolysis, Advanced Functional Materials (2023). DOI: 10.1002/adfm.202302263

Journal information: Advanced Functional Materials

Citation: Hybrid cathode enables scalable high-performance hydrogen generation (2023, June 19) retrieved 6 December 2023 from
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