18419283. ELECTRODE, MEMBRANE ELECTRODE ASSEMBLY, ELECTROCHEMICAL CELL, STACK, AND ELECTROLYZER simplified abstract (TOSHIBA ENERGY SYSTEMS & SOLUTIONS CORPORATION)

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ELECTRODE, MEMBRANE ELECTRODE ASSEMBLY, ELECTROCHEMICAL CELL, STACK, AND ELECTROLYZER

Organization Name

TOSHIBA ENERGY SYSTEMS & SOLUTIONS CORPORATION

Inventor(s)

Norihiro Yoshinaga of Yokohama Kanagawa (JP)

Mutsuki Yamazaki of Kawasaki Kanagawa (JP)

Keisuke Shiino of Kawasaki Kanagawa (JP)

Taishi Fukazawa of Chofu Tokyo (JP)

Yoshihiko Nakano of Yokohama Kanagawa (JP)

Koji Mizuguchi of Kawasaki Kanagawa (JP)

Yoshitsune Sugano of Kawasaki Kanagawa (JP)

Masahiko Yoshiki of Yokohama Kanagawa (JP)

Asato Kondo of Yokohama Kanagawa (JP)

Mitsuhiro Oki of Kawasaki Kanagawa (JP)

ELECTRODE, MEMBRANE ELECTRODE ASSEMBLY, ELECTROCHEMICAL CELL, STACK, AND ELECTROLYZER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18419283 titled 'ELECTRODE, MEMBRANE ELECTRODE ASSEMBLY, ELECTROCHEMICAL CELL, STACK, AND ELECTROLYZER

Simplified Explanation: The patent application describes an electrode with a porous titanium support and a catalyst layer for electrolysis, with alternating stacked sheet layers and gap layers. Titanium oxide covering layers are provided on both sides of the catalyst layer, with specific thickness requirements.

  • The electrode includes a porous titanium support and a catalyst layer for electrolysis.
  • Stacked sheet layers and gap layers are alternately arranged in the electrode.
  • Titanium oxide covering layers are present on both sides of the catalyst layer.
  • The thickness of the covering layers must meet specific criteria.

Key Features and Innovation:

  • Use of a porous titanium support for the electrode.
  • Alternating stacked sheet layers and gap layers for improved performance.
  • Titanium oxide covering layers for protection and stability.
  • Specific thickness requirements for the covering layers.
  • Overall design aimed at enhancing electrolysis efficiency.

Potential Applications: The technology can be applied in various electrolysis processes, such as water splitting, hydrogen production, and chemical synthesis.

Problems Solved: The electrode design addresses issues related to stability, efficiency, and durability in electrolysis applications.

Benefits:

  • Enhanced electrolysis performance.
  • Improved durability and stability.
  • Potential for increased efficiency in various processes.

Commercial Applications: The technology could find applications in industries such as renewable energy, chemical manufacturing, and water treatment, where electrolysis processes are utilized.

Questions about Electrode Design: 1. How does the porous titanium support contribute to the electrode's performance? 2. What are the specific advantages of using titanium oxide covering layers in this electrode design?


Original Abstract Submitted

An electrode of an embodiment includes a porous titanium support and a catalyst layer for electrolysis provided on the porous titanium support and stacked sheet layers and gap layers alternately. A first covering layer including titanium oxide is provided on the porous titanium support on the catalyst layer side. A second covering layer including titanium oxide is provided on the porous titanium support on an opposite side of the catalyst layer. An average thickness of the first covering layer is denoted as D1. An average thickness of the second covering layer is denoted as D2. D1 and D2 satisfies 1 [nm]≤D2−D1≤20 [nm].