Cientistas japoneses desenvolvem material de inversão de spin para aumentar a eficiência solar

Researchers at the University of Cambridge have observed electrons crossing boundaries in solar materials in just 18 femtoseconds, driven by molecular vibrations. This discovery challenges traditional theories on charge transfer in solar energy systems. The findings suggest new ways to design more efficient light-harvesting technologies.

12 de abril de 2026 Reportado por IA

Chinese scientists are developing advanced 2D semiconductor materials with 1,000-fold growth speed, promising applications in optoelectronics such as LEDs, photodetectors and lasers, to overcome Moore's Law limitations.

Scientists at Nagoya University have developed an iron-based photocatalyst that reduces reliance on rare metals in organic synthesis. The new design uses fewer costly chiral ligands and enables the first asymmetric total synthesis of (+)-heitziamide A. This advance promotes more sustainable chemical reactions under blue LED light.

03 de março de 2026 Reportado por IA

The U.S. electric grid loses about 5% of generated electricity during transmission, highlighting the need for better storage and delivery systems to support clean energy. A recent overview outlines seven key innovations addressing these challenges across generation, storage, transmission, and demand.

Researchers at RMIT University in Australia say they have created an ultra-thin, flexible acrylic film covered with nanoscale pillars that can physically rupture viruses without relying on chemical disinfectants. In laboratory tests using human parainfluenza virus type 3, the team reported that about 94% of virus particles were damaged or destroyed within one hour.

28 de março de 2026 Reportado por IA

Scientists at Chiba University in Japan have developed a new carbon material called viciazites that captures CO2 more efficiently and releases it at low temperatures. The material uses precisely arranged nitrogen groups to cut energy costs, potentially running on industrial waste heat. This breakthrough could make large-scale carbon capture more affordable.