A research team led by Prof. Wei Chen at the University of Science and Technology of China (USTC) has developed a new chemical battery system that uses hydrogen gas as an anode.
New micellar technology from Rice University enables chemical reactions in water, lowering environmental impact and improving efficiency in chemical processes.
The latest CIGS-perovskite tandem solar cell from HZB and Humboldt University sets a world record with 24.6 % efficiency, pushing the boundaries of solar energy.
Researchers used solar energy to convert CO2 into a valuable chemical commodity with a two-step solar-powered process. First, electricity from solar energy combined with electrochemistry converts CO2 to ethylene.
Research on Ruddlesden-Popper tin-based perovskite solar cells reveals mechanisms enhancing efficiency and durability through electron spin resonance studies.
UC Davis researchers developed stable platinum catalysts for hydrogenation, enhancing efficiency with nanoscale confinement techniques on cerium oxide islands.
This study presents a novel method for assembling lightweight pyrolytic carbon lattices, optimizing mechanical properties for aerospace sandwich structures.
Lithium-ion (Li-ion) batteries are an integral part of society, from cellphones and laptops to electric vehicles. While Li-ion batteries have been a major success to date, scientists worldwide are racing to design even better ?"beyond Li-ion" batteries in the shift toward a more electrified world.
This study presents a breakthrough catalyst for photo-driven CH4 carbonylation, achieving 96.5% selectivity for acetic acid under moderate conditions.
Attractive metal-metal bonding occurs in a variety of molecules made of metallic atoms such as Iridium (Ir). Current theoretical and experimental methods have shown the existence of two isomers for Ir-Ir molecular systems, but researchers have not been able to predict the proportions of these two isomers or how they interact.
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