Scientists on the Daegu Gyeongbuk Institute of Science and Expertise have created a gasoline cell catalyst constituted of platinum and magnesium. The brand new catalyst, which makes use of the world’s first platinum–magnesium alloy nanoparticles, is predicted to be each extremely environment friendly and sturdy, probably providing vital enhancements in clear vitality expertise.
The examine is revealed within the journal Nature Communications.
Gasoline cells mix hydrogen and oxygen to generate electrical energy. Platinum is used as a catalyst to hurry up these reactions, nevertheless it’s additionally costly. By integrating magnesium into the alloy used within the new catalyst, the design not solely cuts prices but additionally enhances the gasoline cell’s effectivity and longevity.
It is a vital achievement, as a result of for years, researchers have recognized that alloys of platinum with alkaline earth metals maintain immense potential for gasoline cells as a result of their excessive catalytic exercise and stability. Nonetheless, the problem of making these alloys in nanoparticle type, given the acute excessive unfavourable discount potentials of the alkaline earth metals, has remained a major barrier till now.
On this analysis, via a scientific solution-phase strategy, Professor Jong-Sung Yu and colleagues have overcome this problem. What makes this new expertise so particular? Supporting theoretical research carried out by the College of Texas at Austin clarify that the synergy between the platinum and magnesium may be very sturdy, which prevents the alloy from degrading over time. The catalyst thus stays efficient for longer durations, which is essential for numerous purposes.
Sensible exams have proven that the brand new alloy surpasses the U.S. Division of Vitality’s 2025 efficiency targets for gasoline cells, demonstrating its excessive effectivity and long-term stability. “Most fuel cell catalysts struggle with durability and cost, but by overcoming the synthesis challenge, our platinum–magnesium nanoparticles solve these issues by combining platinum’s excellent reaction speed with magnesium’s durability and affordability,” explains Professor Jong-Sung Yu, who led the examine. “This is a major step toward creating more efficient and sustainable fuel cells.”
“This new development doesn’t just make fuel cells work better; it also paves the way for using platinum-magnesium nanoparticles in other energy technologies, like hydrogen production and other electrochemical reactions,” stated Caleb Gyan-Barimah, first writer of the examine.
Because the world shifts in the direction of sustainable vitality, improvements like these are crucial. On this respect, the researchers plan to concentrate on refining the alloy’s composition and scaling up manufacturing to make these superior supplies extra extensively out there. Their subsequent steps embrace bettering the alloy, exploring manufacturing strategies, and partnering with business and authorities to deliver these improvements to market.
Extra data:
Caleb Gyan-Barimah et al, Excessive emptiness formation vitality boosts the soundness of structurally ordered PtMg in hydrogen gasoline cells, Nature Communications (2024). DOI: 10.1038/s41467-024-51280-2
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DGIST (Daegu Gyeongbuk Institute of Science and Expertise)
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New alloy surpasses 2025 gasoline cell efficiency targets (2024, September 3)
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