More often than previously thought, sun-like stars hurl huge amounts of radiation into space. The Sun, too, is capable of ...

This demonstration underscores the potential of engineered monolayer graphene LWIR detectors operating at room temperature, ...

A research team seeks to recreate the performance of lasers on lightweight devices that can fit in the palm of your hand.

Scientists used an entirely innovative process to change metal-organic frameworks (MOFs) by grafting hydrocarbon chains. The ...

Researchers stabilized ferrocene molecules on a flat substrate for the first time, creating an electronically controllable ...

Using perovskite crystals and 3D printing, researchers developed customizable radiation detectors with fast response times ...

Using the deepest X-ray image ever made with Chandra of Centaurus A, astronomers have found an unusual mark from the giant black hole's powerful jet striking an unidentified object in its path.

Scientists used frequency-modulated atomic force microscopy to reveal the submolecular structure of microtubule (MT) inner ...

This research presents a unified theoretical scheme that sheds light on the complex relationship between the symmetries of ...

New work could revolutionize our understanding of how the composition of the gut microbiome is determined and open the door to microbiome engineering.

A new class of magnetism called altermagnetism has been imaged for the first time in a new study. The findings could lead to the development of new magnetic memory devices with the potential to ...