Discover how targeted red and near-infrared light therapies influence mitochondrial biology, cellular repair pathways, and emerging clinical treatments across multiple health systems.

The LEEMONS project is researching nanostructured silicon that uses low-energy electron multiplication (LEEM) to allow one high-energy photon to generate multiple electrons, reducing energy losses in ...

To survive in areas where it is difficult to photosynthesize, some organisms adopt unique strategies. Osaka Metropolitan ...

The development of clean and low-cost solar photovoltaic technology is crucial for the global transition toward carbon ...

Scientists at the University of Cambridge have discovered that electrons can be fired across solar cell materials in just 18 ...

Neutron delays manageable, sales up 16% in Q4 2025, $1.85B backlog. Read here for a detailed investment analysis.

Introduction:Attosecond pulses capture ultrafast electron and light–matter dynamics on the shortest timescales accessible to controlled experiments ...

Attosecond pulses enable sub-femtosecond studies of ultrafast electron dynamics. Since 2001, pulse durations have shortened ...

So far, there was only limited knowledge about how structural changes affect the electronic and optical properties of the many material candidates in this class. A team led by researchers from the ...

Investigating laser technologies in bioelectronics, this review highlights optical principles that optimize fabrication ...

Photocatalysis promises an efficient conversion of abundant solar energy into usable chemical energy. Polyheptazine imides ...

Abstract: High-power microwave (HPM) sources with low guiding magnetic fields are urgently demanded for portable applications owing to their compact volume and low energy consumption. However, their ...