Newly developed dual-functional catalyst solves hydrogen crossover problem in PEM water electrolysis

 June 6, 2025

TANAKA PRECIOUS METAL TECHNOLOGIES Co., Ltd., a company engaged in the industrial precious metals business of TANAKA, has received the 2025 Technology Award from the Catalyst Manufacturers Association, Japan (CMAJ) for development and practical application of electrode catalysts for PEM water electrolysis. Ikkei Arima, from TANAKA accepted the award and gave an acceptance speech at the CMAJ award ceremony held on June 5.

■ PEM water electrolysis as an important technology for realizing a carbon-neutral society

Greater use of renewable energy is necessary for realizing a carbon-neutral society. A key challenge with renewable energy lies in the inability to control the timing of power generation. For instance, solar energy can be harnessed only during daylight hours and is dependent on clear weather conditions, limiting its availability when sunlight is insufficient. One way to avoid this timing issue is “power-to-gas” (P2G), a technology that is gaining attention recently. It utilizes technologies such as proton exchange membrane (PEM) water electrolysis to generate and store hydrogen by leveraging surplus electricity from renewable or alternative energy sources. The stored hydrogen can then be used as a clean power source when demand arises. Therefore, PEM water electrolysis is an important technology for realizing both power-to-gas technology and carbon neutrality.

■ New catalyst technology to solve technological problem of hydrogen crossover in PEM water electrolysis

The 2025 Technology Award was granted for the development and practical application of electrode catalysts for PEM water electrolysis, recognizing a newly developed and commercialized dual-functional catalyst working as both an oxygen evolution reaction (OER) catalyst and gas recombination catalyst (GRC). This new catalyst technology succeeds in solving hydrogen crossover, a technological problem in the PEM water electrolysis process, by efficiently lowering the hydrogen concentration on the anode side of a water electrolysis reaction while maintaining high electrolysis efficiency.

Hydrogen crossover poses a significant safety risk, as hydrogen (H₂) produced at the cathode during water electrolysis can permeate the proton exchange membrane (PEM) and migrate to the anode side, where it may come into contact with oxygen (O₂), creating a potential hazard for explosion or fire. Hydrogen crossover has been conventionally controlled by using thicker membranes, but the problem was that resistance increased as membrane thickness increased, which resulted in less efficient electrolysis. Use of this newly developed catalyst enables thinner membranes to be used to significantly improve both safety and electrolysis efficiency. Having been successfully mass produced, this catalyst is now available for customers in Japan and overseas. With a focus on this technology, TANAKA will contribute to realizing a carbon-neutral society, which will become increasingly important going forward.

2025 Technology Award from Catalyst Manufacturers Association, Japan

○Category:          Technology Award

○Recipients:         Ikkei Arima, Saki Konaka, Mitsuharu Fujita, Mizuki Ito, and Tatsuhiro Yamashita, TANAKA PRECIOUS METAL TECHNOLOGIES Co., Ltd.

○Recognition:      Development and practical application of electrode catalysts for PEM water electrolysis

*Catalyst Manufacturers Association, Japan, was founded by companies manufacturing catalysts, producing catalyst-related materials, and dealing with catalyst products to promote the sound development of Japan’s catalyst industry. It is Japan’s leading catalyst industry association, with participation by major catalyst manufacturers. Through Technology Awards, Distinguished Service Awards, and Special Awards, the association’s award system recognizes excellence in advanced catalyst-related technologies and technologies that have made a significant contribution to the catalyst industry each year.

250606_TANAKA PRECIOUS METAL TECHNOLOGIES Receives 2025 Technology Award from Catalyst Manufacturers Association, Japan.pdf