News - 7 Dec 2023
Researchers at Bayreuth have discovered techniques to use magnetic patterns to control minute particles in liquids. Now, the study’s findings are available in Nature Communications under the...
News - 5 Dec 2023
Through experiments conducted at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR), an international research team has recently added another aspect to graphene's exciting properties.
News - 29 Nov 2023
An atomic force microscope operating in pendulum mode was utilized by SNI network researchers to examine a two-layer graphene device. The two pure carbon layers in this bilayer graphene were rotated...
News - 28 Nov 2023
In an advancement for the field of two-dimensional spintronics, physicists at the National University of Singapore (NUS) have developed a new concept for inducing and quantifying spin splitting in...
News - 23 Nov 2023
Recent research published in Opto-Electronic Science provides a comprehensive review of the fundamentals and applications of optically trapped optical nanoparticles.
Optical Trapping Of Optical...
News - 17 Nov 2023
A study team from the University of Cologne has, for the first time, directly measured the Kondo effect, which determines the behavior of magnetic atoms surrounded by a sea of...
News - 13 Nov 2023
Unless it is augmented with graphene, watching concrete dry might not be the most thrilling activity. Graphene was initially isolated in 2004 by scientists at The University of Manchester and has...
News - 13 Nov 2023
An innovative chemical technique for two-dimensional metal-organic lattices has been created by a research team at the University of Science and Technology of China (USTC) of the Chinese Academy of...
News - 10 Oct 2023
Every motor we use needs a magnet. University of Manitoba researcher Rachel Nickel is studying how rust could make those magnets cheaper and easier to produce.
Her most recent paper, published...
News - 4 Oct 2023
High-temperature superconductors, exemplified by materials like Bi-2223, have long grappled with limitations such as low critical current density and inadequate magnetic flux pinning.