Crystal lattice at a distance: Moiré material method makes it easier to study interactions between electrons
To study the interactions between electrons in a material, physicists have come up with a number of tricks over the years.
‘Nanodot’ control could fine-tune light for sharper displays, quantum computing
Newly achieved precise control over light emitted from incredibly tiny sources, a few nanometers in size, embedded in ...
AZoNano on MSN4d
Controlling Light Color and Frequency for Advanced Technologies
Breakthrough in light emission control from nanoscale sources in 2D materials could enhance ultra-high-resolution displays ...
The Daily Galaxy on MSN2d
Scientists Just Unlocked a Mind-Bending Way to Control Electrons
Researchers at ETH Zurich have developed a groundbreaking technique to manipulate electrons within materials using artificial ...
Semiconductor Engineering4d
Research Bits: Mar. 10
Future research aims to explore new computational possibilities through mechanical coupling between memory bits. [2] ...
SciTech Daily5d
Scientists Just Found a Mind-Bending Way to Control Electrons
Two twisted boron nitride layers (blue and pink) create a crystal lattice at a distance in which electrons (gold) can arrange themselves in a regular pattern. Credit: Natasha Kiper / ETH Zurich ...
AZoQuantum6d
Quantum Materials – What's New in 2025?
Quantum materials research leverages advanced nanoscale techniques to uncover properties essential for innovations in quantum ...
pv magazine International1d
New research shows degradation mechanisms in rear side of TOPCon solar cells
Researchers from UNSW and Longi have found that the silicon nitride layers used in TOPCon cell rear-side are particularly ...
Weather Underground3d
Boron, CA Weather Conditions
Thank you for reporting this station. We will review the data in question. You are about to report this weather station for bad data. Please select the information that is incorrect.