Researchers have developed a brain-inspired nanoelectronic device that could significantly reduce the energy demands of artificial intelligence systems.

Many important technologies, from handheld phones to medical devices and transportation vehicles, rely on rechargeable ...

When a nuclear plant reaches the end of its life or is damaged, it must be decommissioned. This process can take more than 20 ...

Using cutting-edge AI, Loukas Gouskos aims to probe whether the Higgs boson holds the key to why the universe is made of ...

Inductors control electric current by using magnetic fields to resist sudden changes. This video explains how a simple coil ...

The continued burning of fossil fuels is locking heat in Earth’s atmosphere, oceans and land — instead of allowing it to ...

A newly identified mechanism reveals how proton motion can subtly yet powerfully influence triplet energy transfer in ...

Abstract: In this article, a new bidirectional single-inductor multiple-output (SIMO) dc–ac converter is proposed for high-efficiency bidirectional power conversion between one dc port and multiple ac ...

An MIT spinout has heated carbon blocks to 4,350 degrees Fahrenheit to store grid energy for up to 100 hours as a cheaper ...

As electronics demand higher energy density, one component has proved challenging to shrink: the capacitor. Making a smaller ...

Explore how energy is stored in an inductor and how to calculate the energy density of a magnetic field. A core concept in ...