A new bi-functional catalyst made from a single metal could make hydrogen production from methanol more efficient, according to a study published recently in the journal Science Advances. The catalyst, which is made of a cobalt-manganese mixture, is more effective at producing hydrogen than traditional monometallic catalysts, with the added benefit of being able to produce the hydrogen at lower temperatures than typically required. This could potentially lead to lower production costs and more efficient fuel cell technology. The new catalyst is the result of a collaboration between researchers from the Institute of Applied Physics at the University of Nantes in France and the Institute of Physical Chemistry in Poland.

Researchers have discovered a new bi-functional catalyst that could make hydrogen production from methanol more efficient. This cobalt-manganese mixture is more effective at producing hydrogen than traditional monometallic catalysts, and can do so at lower temperatures, potentially leading to lower production costs and more efficient fuel cell technology. The finding is the result of a collaboration between researchers from the Institute of Applied Physics at the University of Nantes in France and the Institute of Physical Chemistry in Poland. This discovery could be a major breakthrough in the development of more efficient and cost-effective fuel cell technology.

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source: Phys.org