Graphene Quantum Dots Propel Innovations in Bioimaging, Displays, and Quantum Technologies Graphene quantum dots drive innovations in bioim ...

Particle-based Monte Carlo device simulators are an efficient tool to investigate the performance and reliability of transistors. The semiclassical theoretical model employed in the Monte Carlo device ...

This study investigates the fundamental quantum properties of divacancy defects in 4H-SiC nanoplate structures using density functional theory (DFT). Given the increasing interest in solid-state qubit ...

In this paper, we demonstrate gate capacitance characteristics of MBCFET compared to those of FinFET, focusing on quantum confinement. Unlike FinFET and NMOS MBCFET, experimental measurement shows ...

Researchers reveal magnetic graphene supports quantum spin Hall states at zero field—paving the way for quantum spintronics.

Quantum computing just got a significant boost thanks to researchers at the University of Osaka, who developed a much more efficient way to create "magic states" a key component for ...

The fields of nanoscience and nanotechnology investigate and manipulate matter at the nanoscale (generally defined as having critical dimensions less than 1000nm). At these scales, materials exhibit ...

Post-quantum cryptography is focused on getting cryptography approaches ready for the era of quantum computers, a post-quantum world.

Scientists from TU Delft (The Netherlands) have observed quantum spin currents in graphene for the first time without using magnetic fields. These currents are vital for spintronics, a faster and ...