Key Highlights
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Researchers have developed a new type of plastic coating that enables uniform platinum deposition on organic solar electrodes for hydrogen production. This approach uses iodide ions to speed up the chemical reaction that creates the active platinum catalyst, leading to a record-high photocurrent and improved stability for solar-driven hydrogen generation.
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A new method for synchronizing the crystallization of two different perovskite materials has enabled the creation of more stable, printable solar cells. This breakthrough allows for the production of tandem solar cells without methylammonium, a component known to cause instability, paving the way for more durable and efficient next-generation solar panels.
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A correction has been published for a significant study on self-assembled molecules that improve the efficiency of tandem solar cells. The original finding, which involves using molecules that form hydrogen-bond networks, remains a key strategy for enhancing the performance and stability of all-perovskite tandem solar cells.
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