Materials consisting of a few atomic layers display properties determined by quantum physics. In a stack of such layers, vibrations of the atoms can be triggered by infrared light. New experimental and theoretical work shows ...
Quantum Physics
Oct 12, 2021
0
157
In a new publication from Opto-Electronic Advances, researchers led by Professor Han Zhang from Shenzhen University, Shenzhen, China, consider whether boron quantum dots surpass the graphene in thermal properties.
Optics & Photonics
Aug 17, 2021
1
172
Highly reactive molecules cannot survive for long in nature. If researchers want to study them more closely, they must produce them under very specific laboratory conditions. Compared to "normal" molecules, many of these ...
Materials Science
Jul 20, 2021
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9
The incorporation of boron into polycyclic aromatic hydrocarbon systems leads to interesting chromophoric and fluorescing materials for optoelectronics, including organic light-emitting diodes (OLEDS) and field-effect transistors, ...
Materials Science
May 5, 2021
1
58
The team led by UDE's Prof. Michael Horn-von Hoegen aims at producing the thinnest possible layer of boron, so-called borophene, since it promises properties that could enable the construction of two-dimensional transistors. ...
Nanomaterials
Apr 26, 2021
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35
Northwestern University researchers have, for the first time, created borophane—atomically thin boron that is stable at standard temperatures and air pressures.
Condensed Matter
Mar 11, 2021
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713
The discovery of carbon nanostructures like two-dimensional graphene and soccer ball-shaped buckyballs helped to launch a nanotechnology revolution. In recent years, researchers from Brown University and elsewhere have shown ...
Nanophysics
Jun 25, 2020
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1130
In their search for new superhard compounds, researchers have carried out a prediction of stable molybdenum borides and their crystal structures. They revealed that the highest borides contain four to five boron atoms per ...
Analytical Chemistry
Apr 29, 2020
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92
Skoltech scientists modeled the behavior of nanobubbles appearing in van der Waals heterostructures and the behavior of substances trapped inside the bubbles. In the future, the new model will help obtain equations of state ...
Nanomaterials
Apr 14, 2020
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5
In the field of 2-D electronics, the norm used to be that graphene is the main protagonist and hexagonal boron nitride (hBN) is its insulating passive support. Researchers of the Center for Multidimensional Carbon Materials ...
Nanomaterials
Mar 10, 2020
0
7
