The structure of WS2 crystal monolayer, including oxygen molecules (red) adsorbed at defects, encapsulated within layers of hexagonal boron nitride. (Image: DGIST) The single layer of bonded atoms ...

Manijeh Razeghi, Walter P. Murphy Professor has been named Conference Chair of the Workshop on Defects in Wide Band Gap Semiconductors (WBG), which will be held on Monday, September 23, 2014 at the ...

Industry leaders team up to develop next-generation crystal growth capability WICHITA, KS, UNITED STATES, February 15, ...

Researchers announced that they have achieved the world's first elucidation of how hydrogen produces free electrons through the interaction with certain defects in silicon. The achievement has the ...

Researchers have discovered a novel way to manipulate defects in semiconductors. The study holds promising opportunities for novel forms of precision sensing, or the transfer of quantum information ...

Researchers and industries have been using transmission electron microscopy (TEM) to study semiconductors' stacking and dislocation faults. This article considers the analysis of crystal structures.

Without ultra-purity, we cannot achieve the performance needed in today's world. When wafers or electronic components become ...

But understanding the defects must come before we learn how to control them. "It is very meaningful that we could actually directly observe these point defects, these abnormalities within the crystal ...

Perovskite solar cells have been the subject of much research as the next generation of photovoltaic devices. However, many challenges remain to be overcome for the practical application. One of them ...

The performance and stability of smartphones and artificial intelligence (AI) services depend on how uniformly and precisely ...