A novel catalytic cycle utilizing an inverse Al2O3/Cu catalyst efficiently separates and stores pure hydrogen from highly impure crude feeds, including industrial tail gases.

New research is significantly reducing platinum requirements in proton exchange membrane fuel cells, addressing a major cost barrier for widespread adoption.

Researchers have discovered a giant bulk photovoltaic effect in Penta-PdTe2, a 1T‴ transition-metal dichalcogenide, offering a new paradigm for solar energy conversion.

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Recent research has demonstrated significant advancements in dielectric ceramics, crucial for high-performance energy storage capacitors.

Researchers at Chongqing University have developed a novel method using titanium-nickel dual active sites to significantly enhance reversible hydrogen storage in magnesium.

Recent research indicates that a magnesium-zinc (Mg-Zn) pair cluster can efficiently store up to five ammonia molecules within a specific temperature range.

Researchers have developed a novel pseudo-perovskite oxide catalyst with in-situ surface reconstructed metals, significantly boosting efficiency for alkaline hydrogen evolution.

Researchers from Université de Lorraine have demonstrated that integrating solar PV systems with agromining on contaminated land offers dual benefits for environmental remediation and energy generation.

Sparc Technologies is set to commission its photocatalytic water splitting pilot plant at the University of Adelaide’s Roseworthy Campus in South Australia next month.