Nanoscale 3D transistors made from ultrathin semiconductor materials can operate more efficiently than silicon-based devices, leveraging quantum mechanical properties to potentially enable ...

MIT researchers have developed a new type of 3D transistor that could be more energy-efficient and powerful than current silicon-based transistors.

MIT researchers developed 3D transistors for more efficient electronics, utilizing quantum tunneling for low-voltage ...

Silicon transistors are held back by a physical limit (the 'Boltzmann tyranny') that prevents transistors from operating below a certain voltage. But now, in an effort to overcome this limit, MIT ...

Silicon transistors, which are used to amplify and switch signals, are a critical component in most electronic devices, from ...

Semiconductor industry researchers have been anticipating the need for better transistor channel materials to replace silicon ...

MIT's new transistor technology could reshape electronics, offering faster switching, greater durability, and reduced ...

Power Integrations has introduced a 1700 V gallium nitride (GaN) switch, the 1700 V InnoMux-2. marking a new technical ...

Researchers at PNNL discovered a novel way to control the nanostructure of the silk protein, which is a key step toward ...

Read why ASM is a leader in atomic layer deposition equipment for advancing transistor structures, making the stock a buy at ...

The Rise and Fall of Industry Pioneers" Discover the fascinating stories of five tech giants that revolutionized their industries but failed to hold onto their success. From Xerox, the company that ...