A team of physicists has discovered how DNA molecules self-organize into adhesive patches between particles in response to assembly instructions. Its findings offer a 'proof of concept' for an innovative way to produce materials with a w...
Nov 1, 2021
A team of physicists has discovered how DNA molecules self-organize into adhesive patches between particles in response to assembly instructions. Its findings offer a "proof of concept" for an innovative way to produce materials with a w...
Nov 1, 2021
Join the audience for a live webinar on 16 November 2021 sponsored by HORIBA Scientific The post Raman and PL at the nanoscale: why it’s important for 2D materials appeared first on Physics World.
Nov 1, 2021
G6 Materials (Formerly called Graphene 3D Lab) reported its financial results for Q3 2021 (which ended on August 31). The company's revenues in the quarter increased 55% from Q2, to reach $341,134. The increase is attributed to a stable incre...
Nov 1, 2021
Both Amazon and Best Buy have record-low prices on everything from earbuds to smartwatches.
Nov 1, 2021
The thinnest materials in the world are only a single atom thick. These kinds of two-dimensional or 2D materials—such as graphene, well-known as consisting of a single layer of carbon atoms—are causing a great deal of excitement among research tea...
Nov 1, 2021
The captured electrons typically absorb light in the visible spectrum, so that a transparent material becomes colored under the presence of such centers, for instance in diamond. "Color centers are often coming along with certain magnetic pro...
Nov 1, 2021
California-based company Lyten has developed a graphene-enhanced lithium-sulfur battery for electric vehicles. The battery reportedly achieved a higher gravimetric energy density than traditional lithium-ion and solid-state technologies. Lyten is ...
Nov 1, 2021
Isaac Nape, an emerging South African talent in the study of quantum optics, is part of a crack team of Wits physicists who led an international study that revealed the hidden structures of quantum entangled states. The study was published in the ...
Nov 1, 2021
Prototype device uses a dielectric resonator to control electron spins in silicon quantum dots The post Researchers crack challenge of sending control signals to millions of qubits at once appeared first on Physics World.
Nov 1, 2021
