A new study describes both the mechanism and the material conditions necessary for superfluorescence at room temperature.

The object, known as ASKAP J1832-0911, emits pulses of radio waves and X-rays for two minutes every 44 minutes. ASKAP ...

Researchers transform natural leather into an electronic skin that combines pressure sensing, thermal regulation, and impact ...

Engineers develop multifunctional, reconfigurable component of an optical computing system that could be a game changer in ...

The research lays the foundation for designing more efficient catalysts and storage materials essential for next-generation ...

Plants mastered the art of harvesting sunlight billions of years ago, using elegant rings of pigments in their leaves. Now, ...

A pioneering method to simulate how nanoparticles move through the air could boost efforts to combat air pollution, a study ...

Researchers created a light-powered phagobot that merges macrophage immune activity with optical control, allowing activation ...

The flexible, four-legged devices were developed using a new 3D printing system, which could pave the way for the use of ...

Recently, a research team led by Professor Junsuk Rho at POSTECH (Pohang University of Science and Technology) has developed ...

Commercial devices currently settle for less efficient blue OLEDs, but a set of design innovations has made an efficient blue ...

Researchers develop a platinum-decorated ceramic sensor with high sensitivity and long-term stability for formaldehyde ...