Scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have discovered a new recipe for catalysts that could dramatically improve the performance and durability of ...
A simplified schematic depicting the formation mechanism of NiPt nanocatalysts with a dome-shaped hollow polycrystalline structure incorporating a Ni3Pt5 intermetallic phase. The process is driven by ...
Hydrogen fuel cells could power cars, devices, and homes with nothing but water as a byproduct—but platinum’s cost holds them back. Chinese researchers have now unveiled a breakthrough iron-based ...
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Scientists could swap platinum with peat-based catalyst in fuel cells to boost performance
A team of researchers has demonstrated that well-decomposed peat could serve as a sustainable and highly efficient precursor for next-gen fuel cell catalysts and potentially replace expensive platinum ...
Researchers have developed a new catalyst design capable of pushing the projected fuel cell catalyst lifespans to 200,000 hours. The research marks a significant step toward the widespread adoption of ...
A precise synthesis tunes platinum skin thickness on PtCu nanospheres and shows two atomic layers give the best oxygen ...
A research team led by Professor Jong Sung Yu of the Department of Energy Science and Engineering at DGIST (President Kunwoo Lee) has developed a new alloy structure that can significantly enhance the ...
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