Key Highlights
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Researchers have developed a new amphiphilic monomer that enables the scalable production of flexible perovskite solar cells. This breakthrough could lead to cheaper, more versatile solar panels that can be integrated into a wide range of surfaces and devices.
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A new method uses single titanium atoms on a carbon platform to activate oxygen, which significantly improves the doping of a key material (Spiro-OMeTAD) in perovskite solar cells. This enhancement led to a record-breaking 23.85% efficiency for carbon-based solar cells, making them more powerful and stable for long-term use.
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Scientists have created multilayered photocatalyst structures that use quantum effects to trap electrons, dramatically improving the efficiency of solar-powered water splitting. This advance could make hydrogen fuel production from sunlight and water a much more viable and efficient clean energy source.
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