EMBL researchers have been using a powerful technique called expansion microscopy to peek deeper inside living organisms and ...

Halide perovskites—already a focus of major research into efficient, low-cost solar cells—have been shown to handle light ...

Nonlinear optical microscopy enables intrinsic optical sectioning, label-free contrast, and deep-tissue imaging, and as such ...

An RNAi based genetic screen and subsequent analyses reveal how dyneins and small GTPases coordinate autophagosome positioning at the ncMTOC in fat cells, advancing understanding of autophagic vesicle ...

A unique mechanical design aspires to remove heat from this LED light bulb’s insides, but you still need to keep external ventilation in mind.

A global team of experts from academia and industry has joined forces in a landmark Consensus Statement on next-generation ...

Researchers use low-cost LEDs and tin nanoflakes to selectively destroy cancer cells. A new type of cancer treatment can ...

Scientists have achieved a breakthrough in light manipulation by using topological insulators to generate both even and odd terahertz frequencies through high-order harmonic generation (HHG). By ...

A landmark ‘Consensus Statement’ on next-generation photodetectors could accelerate innovative applications across healthcare ...

The outbreak of the COVID-19 pandemic demonstrated the need to rapidly develop, produce and distribute large quantities of ...

Optical and scanning electron microscope images of a nano-LED device that uses AC power instead of DC power, which could be a game-changer for sharper near-eye displays.

Tsinghua University scientists have developed a light-driven AI chip, OFE², utilizing photonic circuits to process data at 12.5 GHz.