News News

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

Where are you now： Home page → News → Comprehensive

Green hydrogen: Improving the stability of iridium catalysts with titanium oxides

The date of： 2024-12-18

viewed: 2

source:Helmholtz Association of German Research Centres

Anodes for the electrolytic splitting of water are usually iridium-based materials. In order to increase the stability of the iridium catalyst, a team at HZB and a group at HI-ERN have now produced a so-called material library: a sample in which the concentration of iridium and titanium oxides is systematically varied.

Analyses of the individual sample segments at BESSY II in the EMIL laboratory showed that the presence of titanium oxides can increase the stability of the iridium catalyst significantly.

One option for storing energy from the sun or wind is the production of "green" hydrogen by electrolysis. Hydrogen stores energy in chemical form and releases it again when burnt, producing no exhaust gases, only water. Today, iridium is the state-of-the-art catalyst for this reaction. However, iridium increasingly dissolves in the acidic environment of the electrolysis cell so that the catalytic effect quickly wanes.

"We wanted to investigate whether the stability of the catalyst can be improved by adding different proportions of titanium oxide," says Prof Dr. Marcus Bär (HZB). Although titanium oxide is not catalytically active, it is very stable. "We had some indications that the presence of titanium oxide would have a positive effect on stability without influencing the catalytic effect of the iridium. But we also wanted to find out whether there is an ideal mixing ratio."

The sample as a materials library

The sample was produced at the Helmholtz Institute Erlangen-Nuremberg for Renewable Energies (HI-ERN) by Prof Dr. Olga Kasian's team by sputtering titanium and iridium with locally varying compositions. It is a so-called thin-film materials library on which the iridium content varies from 20% to 70%

At BESSY II; the team used X-ray spectroscopic methods to analyze how the chemical structure changes depending on the iridium content of the mixed iridium-titanium oxide samples. Several effects played a role here: for instance, the presence of titanium suboxides (such as TiO and TiOx) improved the conductivity of the material.

Another exciting result was that some of the titanium oxides dissolve faster in the aqueous electrolyte than iridium, creating micropores on the surface. This promoted the oxygen evolution reaction because more iridium atoms from the lower layers came into contact with the electrolyte.

The main effect, however, is that titanium oxides (TiO2, as well as TiO and TiOx) significantly reduce the dissolution of iridium. "In the sample with 30 % titanium added compared to a pure iridium electrode material, we saw an iridium resolution that was approximately 70 % lower," says Marianne van der Merwe, who carried out the measurements as part of her doctorate with Marcus Bär.

High relevance for practical use

But how relevant are such results from laboratory research for industry? "If there are already established technologies, it's always difficult to change anything at first," says Marcus Bär. "But here we show how the stability of the anodes can be significantly increased with a manageable amount of effort."

In the previous：Axel REE identifies high-grade gallium aThe next article：Scientists reveal superconductivity secr

Hot News / Related to recommend

Light-driven hybrid nanoreactor offers cost-effective hydrogen production

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...

Axel REE identifies high-grade gallium and rare earth potential at Caladão project

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...

Green hydrogen: Improving the stability of iridium catalysts with titanium oxides

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...

Scientists reveal superconductivity secrets iron

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...