News News
Contact us
  • Customer service number:64321087
  • Commercial service telephone:13918059423
  • Technical service telephone:13918059423
  • Contact person: Mr. Cui 
  • Service email:shxtb@163.com
  • Address: room 107, building 8, no. 100, guilin road, xuhui district, Shanghai

Iridium workaround could speed up green hydrogen industry

The date of: 2024-05-16
viewed: 0
source:cosmos


Combining one of the world’s rarest metals with a comparatively abundant element could help accelerate green hydrogen production, with a Japanese research team developing an enhanced catalyst for industrial electrolysis.
Iridium is a vital, but rare catalyst involved in the electrolysis process that produces green hydrogen, effectively by using electricity from a renewable energy source to split water into separate hydrogen and oxygen molecules.
Such is its scarcity that only around 3 tonnes are produced annually from a thin layer of the Earth’s crust and other small deposits. It’s the most corrosion-resistant element and is very unreactive, making it perfect as a catalyst that can speed up electrolysis reactions without degrading itself. 
To reduce the need for iridium, a team of researchers at the Japanese RIKEN Center for Sustainable Resources Science has published results in the journal Science showing a new electrolysis method that requires 96% less iridium for the same outcome.
“We need a way to bridge the gap between rare metal and common metal-based electrolysers so that we can make a gradual transition over many years to completely sustainable green hydrogen,” says Ryuhei Nakamura, an electrochemist at RIKEN who led the study.
To reduce iridium reliance, the RIKEN team combined iridium with manganese oxide. By dispersing iridium atoms on a piece of manganese oxide, the team conducted highly efficient electrolysis such that it “exceeds that of iridium catalysts reported previously”.
Nakamura’s team ran a continuous electrolysis process for around 4 months at around 82% efficiency using the material.
He anticipates their platform will be “easily transferred to real-world applications” with industry partners collaborating with the RIKEN group to introduce the technology to market.
Introducing more efficient materials like their iridium-manganese catalyst could help reduce the need to extract substantial amounts of the rare metal. The equivalent of 40 years of iridium extraction would be required to bring global hydrogen production to terawatt scale, with the world’s energy demand currently around 18TW on average.



Hot News / Related to recommend
  • 2024 - 12 - 20
    Click on the number of times: 0
    source: University of LiverpoolThe University of Liverpool has reported a significant advancement in engineering biology and clean energy. A team of researchers has developed an innovative light-drive...
  • 2024 - 12 - 19
    Click on the number of times: 0
    source:SMALL CAPSAxel REE (ASX: AXL) has identified significant gallium mineralisation following a review of auger and diamond drill samples collected from the ongoing Phase One campaign at its flagsh...
  • 2024 - 12 - 18
    Click on the number of times: 2
    source:Helmholtz Association of German Research CentresAnodes for the electrolytic splitting of water are usually iridium-based materials. In order to increase the stability of the iridium catalyst, a...
  • 2024 - 12 - 17
    Click on the number of times: 1
    source:University of CaliforniaScientists at the University of California, Irvine have uncovered the atomic-scale mechanics that enhance superconductivity in an iron-based material, a finding publishe...
  • Copyright ©Copyright 2018 2020 Shanghai rare earth association All Rights Reserved Shanghai ICP NO.2020034223
    the host:Shanghai Association of Rare Earth the guide:Shanghai Development and Application Office of Rare Earth the organizer:Shanghai rare earth industry promotion center
    犀牛云提供云计算服务