Duke engineers show how a common device architecture used to test 2D transistors overstates their performance prospects in real-world devices.

The ever-shrinking features of transistors etched in silicon have always required pushing the cutting edge of manufacturing technology. The discovery of atomically thin materials like graphene and ...

Research groups in Japan and the U.S. jointly developed a double-layered nanowire, consisting of a germanium core and a silicon shell, which is a promising material for high-speed transistor channels.

Substituting the values from Table 1 into Equation 3 and 4, values for η and R S are obtained for this 'thermal diode' treated as a 2-terminal diode and listed in Table 2. Figure 2 is a plot of two ...

Over the past few decades, electronics engineers have been trying to develop new neuromorphic hardware, systems that mirror ...

Researchers at Peking University have built a transistor they say is the world’s smallest and most energy-efficient, ...

The following automatic battery-charger design is created with a circuit that could qualify as the simplest window comparator ever built around a single transistor (see the figure). It starts charging ...

The heart of a processor inside a computer and other devices is the transistor. The more transistors that can be crammed inside a CPU, the better the device performs. There is a limit to how small a ...

We’ve previously remarked upon a generation lucky enough to be well-versed in microcontrollers and computersised electronics through being brought up on the Arduino or the Raspberry Pi but unlucky ...

Your design task, should you decide to accept it: given an input voltage, square it. Ok, that’s too hard since squaring 8 volts would give you 64 volts, so let’s say the output should be 10% of the ...