Alkaline water electrolysis method, and anode for alkaline water electrolysis

Assignees

• DE NORA PERMELEC LTD · JP
• KAWASAKI JUKOGYO KABUSHIKI KAISHA · JP
• National University Corporation YOKOHAMA National University · JP

Inventors

• Shigenori Mitsushima · Yokohama, JP
• Yoshiyuki Kuroda · Chiba, JP
• Shohei Takatsu · Yokohama, JP
• Ikuo Nagashima · Akashi, JP
• Tatsuya Taniguchi · Tokyo, JP
• Akihiko INOMATA · Kobe, JP
• Ayaka Nagai · Kobe, JP
• Yoshinori Nishiki · Yokohama, JP
• Akihiro Kato · Fujisawa, JP
• Awaludin ZAENAL · Fujisawa, JP
• Takaaki NAKAI · Fujisawa, JP

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02P20/133
• WIPO fieldSurface technology, coating
• WIPO sectorChemistry

Abstract

The present invention realizes industrially excellent effects such that when electric power having a large output fluctuation, such as renewable energy, is used as a power source, electrolysis performance is unlikely to be deteriorated and excellent catalytic activity is retained stably over a longer period of time, and in addition, the present invention provides a technique that enables forming a catalyst layer of an oxygen generation anode, which gives such excellent effects, with a more versatile materials and by a simple electrolysis method. Provided are an alkaline water electrolysis method including supplying an electrolyte obtained by dispersing a catalyst containing a hybrid nickel-iron hydroxide nanosheet (NiFe-ns) being a composite of a metal hydroxide and an organic substance to an anode chamber and a cathode chamber, and using the electrolyte for electrolysis in each chamber in common, an alkaline water electrolysis method including supplying an electrolyte obtained by dispersing a catalyst containing the NiFe-ns to an anode chamber and a cathode chamber, and performing electrolytic deposition of the NiFe-ns in the electrolytic cell during operation to electrolytically …