Shrinking computers, faster phones, and smarter gadgets all rely on one tiny component: the transistor. Invented in the 20th century, it’s what powers nearly every modern electronic device.

We’re only 7 years from the next evolution in transistors ...

In 1940, a cracked silicon crystal at Bell Laboratories led Russell Ohl to discover the p-n junction, a pivotal moment for ...

Over the past 70 years, the number of transistors on a chip has doubled approximately every two years – according to Moore’s Law, which is still valid today. The circuits have become correspondingly ...

In the era of big data and artificial intelligence, a new approach has emerged for solving combinatorial optimization problems, which involves finding the most efficient solution among many possible ...

Why it matters: Silicon transistors are great, but just like any other object in the physical world, they are held back by a few limitations. The laws of physics put a bottleneck on performance and ...

For over 75 years, silicon has been the dominant material in the evolution of modern electronics, powering everything from smartphones to satellites. But as chipmakers push toward smaller nodes, ...

What just happened? A team of researchers at MIT, in collaboration with Georgia Tech and the Air Force Research Laboratory, has developed a new method for integrating gallium nitride (GaN) transistors ...

Foremost among silicon's distinguishing features is that, quite simply, there is a hell of a lot of it. After oxygen, it's the second most abundant element in the Earth's crust -- but don't expect to ...