MIT creates nanoscale transistors for efficient electronics Quantum tunneling delivers low-voltage, high-performance The technology has the potential to replace silicon MIT researchers have ...

Nanofluidic transistors, also known as nanofluidic systems or nanofluidic devices, are innovative tools that control the flow of fluids, such as water or ions, through nanoscale channels using ...

What is a Single-Electron Transistor? A single-electron transistor (SET) is a nanoscale electronic device that allows the precise control of individual electrons. Unlike conventional transistors that ...

As part of the Q-NEXT quantum research center, Randall Goldsmith of the University of Wisconsin–Madison studies the interplay of light and matter, harnessing it for quantum information technologies.

Examples of nanoscale devices are synthetic molecular motors such as rotaxanes, graphene-based transistors and nanoelectromechanical oscillators. Controlling qubit–phonon interactions is crucial ...

Ferroelectrics at the nanoscale exhibit a wealth of polar and sometimes swirling (chiral) electromagnetic textures that not ...

From the ever-shrinking microchip containing billions of nanoscale transistors to advances in drug delivery for cancer therapy, materials scientists and engineers manipulate atomic structures to ...

Recent advancements in self-assembling electronics have demonstrated the potential to revolutionize the manufacturing of ...

Can ferroelectric materials help transistors overcome the 'Boltzmann ... and further work is needed to fully understand all such effects in nanoscale ferroelectrics.

With the rapid development of advanced technologies in recent years, such as displays and transistors, interest in technologies that can precisely control doping in nanoscale semiconductors is ...

Flexible televisions, tablets and phones as well as ‘truly wearable’ smart tech are a step closer thanks to a nanoscale transistor created by researchers at The University of Manchester and Shandong ...