This study constitutes a demonstration of highly textured, large-area perovskite photodiodes integrated sturdily onto ...

One of the great successes of 20th-century physics was the quantum mechanical description of solids. This allowed scientists to understand for the first time how and why certain materials conduct ...

Every summer, our cities burn energy to keep us cool. The same happens in winter with the increasing demand for heating.

Under the threat of climate change and geopolitical tensions related to fossil fuels, the world faces an urgent need to find ...

A multi-disciplinary team of researchers linked atomic-scale features to efficient heat-to-electricity conversion, offering ...

Magnetism is usually taught as a story of straight lines, with field arrows marching neatly from north to south. In a lab at Florida State University, that picture has just been shattered by a new ...

Most of today's quantum computers rely on qubits with Josephson junctions that work for now but likely won't scale as needed ...

In this article, we get technical. What is Floquet engineering, and how can this quantum-level science impact materials? We ...

Florida State University scientists have engineered a new crystal that forces atomic magnets to swirl into complex, repeating ...

An unexpected discovery in a Harvard lab has led to a breakthrough insight into choosing an unconventional material, silica, ...

Alternative anodes such as Li₄Ti₅O₁₂ offer improved safety, but their low theoretical capacity severely constrains energy ...

Scientists at Fermilab’s MicroBooNE experiment have ruled out the existence of the elusive sterile neutrino, a particle proposed for decades to explain puzzling neutrino behavior. Their high-precision ...