Resistive switching in memristive devices typically involves the formation of localized conductive paths within an insulating layer. These conductive filaments (CFs) are often associated with the ...

The team reported that it was able to detect the presence of individual carbon atoms replacing boron atoms in hBN crystals. This discovery was made possible by listening to the electronic "noise" in ...

An international research team has pioneered a new technique to identify and characterize atomic-scale defects in hexagonal boron nitride (hBN), a two-dimensional (2D) material often dubbed 'white ...

Monolayer hBN consists of a single layer of boron and nitrogen atoms arranged in a honeycomb pattern. Recently, defects in hBN crystals have been identified as color centers, with some being ...

A team led by Prof. GUO Guangcan, with the collaborative efforts from Wigner Research Centre for Physics, revealed a new approach to discovering a new spin defect with an excellent probability of 85% ...

Systems which can emit a stream of single photons, referred to as quantum light sources, are critical hardware components for emerging technologies such as quantum computing, the quantum internet, and ...

A project at Australia's RMIT University and the University of Technology Sydney (UTS) has developed a quantum microscopy platform that could offer new ways to probe material properties and physical ...

(Nanowerk News) Diamond has long been the go-to material for quantum sensing due to its coherent nitrogen-vacancy centres, controllable spin, sensitivity to magnetic fields, and ability to be used at ...

A recent study published in Small investigates the mechanisms of resistive switching in monolayer hexagonal boron nitride (hBN) memristive devices using a fully optical, operando approach. Image ...