UDRI offers basic and applied research on nanoelectronic materials synthesis, characterization, and device fabrication and performance. We maintain state-of-the-art synthesis and characterization ...

A new study led by Rice University materials scientist Lane Martin sheds light on how the extreme miniaturization of thin ...

Charge carriers have been confined by exploiting the small difference between the bandgap energies of the two naturally occurring stable isotopes of carbon. Many high-speed electronic and ...

Besides transistors, nanoelectronic devices play a role in data storage (memory). Here, spintronics – the study and exploitation in solid-state devices of electron spin and its associated magnetic ...

A number of laboratories support the research activities in these areas as, for example, the Nanoelectronic Devices and Systems Laboratory, the High Performance Architectures Research (HiPer) ...

Northwestern Engineering researchers have developed a new nanoelectronic device that can perform accurate machine-learning classification tasks in the most energy-efficient manner yet.

This allows for the tuning of electronic properties by controlling the nanoribbon dimensions, enabling their use in nanoelectronic devices such as field-effect transistors, sensors, and interconnects.

the research team reported that they have succeeded in creating a quantum state that is more complex than conventional qubits by using antimony atoms embedded in silicon nanoelectronic devices.