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Use of ruthenium in fuel cells set to turn down as green hydrogen trend turns up – Heraeus


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Use of ruthenium in fuel cells set to turn down as green hydrogen trend turns up – Heraeus

Heraeus Precious Metals executive VP Philipp Walter interviewed by Mining Weekly’s Martin Creamer. Video: Darlene Creamer.

4th May 2021

By: Martin Creamer
Creamer Media Editor


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JOHANNESBURG ( – The use of ruthenium in fuel cells is poised to decline in line with the growing trend towards the generation of green hydrogen.

“We believe that the use of ruthenium in fuel cells will come down, as the trend to green hydrogen will bring with it purer feeds with less carbon monoxide impurities, which basically means you no longer need the ruthenium to prevent the activity loss on the anode side,” Heraeus Precious Metals executive VP new business development and innovation Philipp Walter told Mining Weekly in a Zoom interview. (Also watch attached Creamer Media video.)


The increasing purity of hydrogen generated by electrolysis, rather than by the steam methane reforming of petrochemically derived hydrogen, reduces the need for ruthenium-based catalysts.

But the importance of ruthenium might ascend if development under way enables it to substitute rhodium and iridium – as well as play additional roles in the semiconductor field.


From a supply point of view, ruthenium is in balance, and its price is well below the sky-high levels of rhodium and iridium, meaning that there could be future demand for ruthenium as a suitable replacement for its fellow platinum group metals (PGMs) in, for example, emission catalysts.

Ruthenium is one part of a bimetallic catalyst system in fuel cells, with the other metal being platinum. The role of the ruthenium is to oxidize the carbon monoxide and by doing so, remove the carbon monoxide from the surface of the platinum to prevent surface clogging, which lowers the activity of platinum-based electrocatalysts in fuel cells. Ruthenium fulfills this activity-enhancing role in both methanol and hydrogen fuel cells. 

“You’re talking here about 0.03 g to about 0.07 g of ruthenium per kilowatt,” said Walter, in commenting on the volumes of the metal that are required to do the job.

On the outlook for the ruthenium price, Walter said: "It’s, of course, always a question of crystal ball gazing but in general the price of ruthenium has increased lately, following the overall trend of price hikes, but to a lesser extent and driven mainly by speculation."

On the product line that is the biggest consumer of ruthenium, he added: "The main application is in hard disk drives and hard disk drive producers are the biggest consumers of ruthenium at this point in time."

On the manner in which ruthenium would likely substitute PGMs in short supply, he said that, in the case of the metal's potential substitution of rhodium and iridium, it was envisaged that ruthenium would likely do this "together with other formulation components, other metals".

Mining Weekly: So, just as platinum is substituting high-priced palladium, is ruthenium in line to do the same for supply-constrained rhodium and iridium?

Walter: Investigations into this are ongoing. If you look at rhodium and iridium and their skyrocketing prices, it will be advantageous if ruthenium, together with other components, can help, in certain applications, to minimise the use of rhodium and iridium. That’s an ongoing development, I would say.

Mining Weekly: Is this likely in the short term, or is there still a long way to go?

Walter: Personally, I believe there’s still some way to go.

Meanwhile, Mining Weekly can report that platinum and ruthenium are used in fuel cells for the same fundamental reasons as they are in the automotive and chemical industries – they are excellent catalysts that make chemical reactions take place at higher speed, at lower temperature and at higher rates of conversion than would otherwise be the case – and, as Heraeus Precious Metals states on its website, they are robust under a fuel cell’s harsh operating conditions.

Platinum and ruthenium are both part of the family of PGMs hosted and mined overwhelmingly in South Africa, and the metals are justifiably receiving increasing global attention as a result of the positive role that they can play in the fast-moving hydrogen economy, as well as in fighting climate change – the world's most pressing current problem.


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