For decades, ferromagnetic materials have driven technologies like magnetic hard drives, magnetic random access memories and ...

By Muhammad OsamaReviewed by Lexie CornerMay 30 2025 A recent study published in Small investigated how altering the surface charge of covalent organic frameworks (COFs) affects platinum (Pt) ...

Scientists have mapped the shape of an electron for the first time, revolutionizing quantum physics. Using Angle-Resolved Photoemission Spectroscopy (ARPES), they analyzed kagome metals, revealing ...

Electronic materials are designed for properties like conduction, insulation, magnetism, and energy storage, forming the foundation of nearly all modern technologies across electronics, energy, and ...

If I hand you an electron, you have… an electron. It has a specific mass. A specific spin. A specific charge. A specific generation (or “flavor” if you will). It just is. It’s an electron.

In the 127 years since the electron was discovered, it has undergone more scrutiny than perhaps any other particle. As a result, its properties are not just well known, but rote, textbook material: ...

Oscillations of conductance observed in strong magnetic fields are a striking manifestation of the quantum dynamics of charge carriers in solids. The large charge carrier density in typical metals ...

In the terahertz band, vacuum electronic devices (VEDs) encounter several challenges. One of the key issues is the formation and maintenance of fine pencil beam. This article proposes a numerical ...

Rates of subsequent multiphasic charge recombination on picosecond-to-nanosecond timescales are determined by structural characteristics associated with specific donor–acceptor pairings and ...