Semiconductors

Exploring atomic simulations, researchers at UChicago unveil methods to engineer spin defects for quantum tech advancement. #QuantumComputing #Research

Transcending Limits in Quantum Systems: A Novel Theoretical Framework for Oscillating QD-Cavity Hybrid ArrangementsA novel theoretical framework for dealing with …

Deciphering Hafnium Oxide: The Future of Semiconductor TechnologyEmploying the state-of-the-art ultrahigh-vacuum atomic force microscope situated at the Department of Energy’s …

Advancing Computing: Blending analog & digital realms via 2D semiconductors & ferroelectric materials for brain-like efficiency.

Breakthrough: New molecules shield electron-conducting core in OLEDs, boosting efficiency. Simplifies blue OLED production.

Quantum leap in computing: Scientists create superposition state in nanostructure, advancing quantum computing. (Nature Nanotechnology, 2023)

Revolutionary study challenges crystal understanding, revealing stable random arrangements with new properties. Implications for materials science and technology.

Revolutionary advancement in thermal management of semiconductors using surface plasmon polaritons boosts heat dispersal by 25%.

Quantum computing breakthrough: Detecting fractional quantum anomalous Hall states in semiconductor flakes paves the way for stable qubits.

Discover the astonishing potential of flat fullerene fragments as electron acceptors, offering practical applications in semiconductors, batteries, and more.