Researchers at UNIST have unveiled a novel interface engineering technique that significantly improves both the performance and durability of perovskite/organic tandem solar cells (POTSCs). Published ...

Abstract Self-assembled monolayer (SAM)-based hole-selective layers (HSLs) offer a promising route to defect-passivated and energy-aligned interfaces ...

• Overcoming Defect-Limited Efficiency: Conventional CZTS devices stall below 8 % STH because bulk Cu_Zn antisites and interface traps devour carriers. PSLE-controlled nucleation creates dense, ...

Researchers at Ulm University and Friedrich-Schiller-Universität Jena have built a molecular system that captures solar energy in a water-soluble redox copolymer, stores it at more than 80% charging ...

Scientists have shattered previous efficiency records for producing clean fuel from sunlight, water, and CO2. Researchers from the Institute of Science Tokyo and Hiroshima University have developed a ...

Solar water splitting is one of the most direct ways to produce green hydrogen using sunlight. However, most photocatalysts and photoelectrodes absorb only a limited portion of solar radiation, mainly ...

A novel dye-sensitized photocatalyst developed at Science Tokyo enables the capture of long-wavelength visible light for efficient hydrogen conversion, surpassing conventional photocatalysts. By ...

A recent study has achieved a remarkable technological breakthrough in the production of green hydrogen. In a groundbreaking development towards practical photoelectrochemical water splitting, a ...

Green hydrogen has long been billed as a clean fuel for heavy industry, shipping, and long-duration storage, but its price has stubbornly stayed above what most markets will tolerate. A new ...

(Nanowerk News) Hydrogen is widely regarded as one of the cleanest fuels for the future, producing only water when used. However, generating hydrogen efficiently and sustainably remains a major ...