In organic field-effect transistors (FETs), charges move near the surface of an organic semiconductor, at the interface with a dielectric. In the past, the nature of the microscopic motion of ...

Curious about how transistors remember data and make memory storage possible? Dive into the basics of memory at the ...

Graphene has attracted considerable interest for future electronics, but the absence of a bandgap limits its direct applicability in transistors and logic devices. Recently, other layered ...

Speaking of power, even in a microscopic transistors, power leakage matters. Think about it this way. When a light switch on your wall is off, it's not sending enough power to light a light, ...

It might look like some kind of grade school abstract painting, but you’re actually looking at a microscopic transistor which is made up of a single molecule and a smattering of of atoms.

Researchers have demonstrated a switch, analogous to a transistor, made from a single molecule called fullerene. By using a carefully tuned laser pulse, the researchers are able to use fullerene ...

Microscopic 2D Magnets Could Replace Transistors for Super-Fast Computing. Atomic-scale magnets could accelerate computing as we reach the limits of silicon.

Transistors, the microscopic building blocks of electronics, are intricately linked to chip design and Moore’s Law in their journey towards miniaturisation and driving modern electronics.

Microscopic 2D Magnets Could Replace Transistors for Super-Fast Computing. 10mo. ... A new computing revolution in the works may take us beyond transistors with atomic-scale magnets.

Over the years, scientists and engineers have been able to make transistors tinier and tinier. With the invention of the integrated circuit, or microchip, in which thousands or millions of transistors ...

A Raytheon Co. scientist has discovered that transistors, which are far smaller than any ordinary microphones, ... Raytheon has high hopes for its near-microscopic microphone.