Category Technology/Electronics

Researchers have discovered that soaking low density plastic in a sulfur-containing solvent, putting it into a microwave and transforming it into a carbon scaffold makes lithium-sulfur batteries last longer and retain elevated capacity. Credit: Purdue University/Patrick Kim

Purdue engineers have figured out a way to tackle plastic landfills while also improving batteries – by putting ink-free plastic soaked in sulfur-containing solvent into a microwave, and then into batteries as a carbon scaffold. Lithium-sulfur batteries have been hailed as the next generation of batteries to replace the current lithium ion variety. Lithium-sulfur batteries are cheaper and more energy-dense than lithium ions, which would be important characteristics in everything from electric vehicles to laptops...

This false-color, scanning electron microscope image shows the fractured surface of a sequentially bonded graphene sheet. An international research team led by scientists at Beihang University in China and The University of Texas at Dallas developed the high-strength, super-tough sheets, which can be inexpensively fabricated at low temperatures. Credit: Image courtesy Beihang University

Material’s properties exceed those of carbon fiber composites used in aircraft bodies, sports equipment. The team made the sheets by chemically stitching together platelets of graphitic carbon, which is similar to the graphite found in the soft lead of an ordinary pencil...

A depiction of the crystal structure of chromium triiodide (CrI3), with chromium atoms shown in purple and iodine atoms in yellow. The black arrows represent the electron “spins,” which are analogous to tiny bar magnets.Tiancheng Song

Scientists have discovered a method to encode information using magnets that are just a few layers of atoms in thickness. This breakthrough may revolutionize both cloud computing technologies and consumer electronics by enabling data storage at a greater density and improved energy efficiency.

In a study published online May 3 in the journal Science, the researchers report that they used stacks of ultrathin materials to exert unprecedented control over the flow of electrons based on the direction of their spins – where the electron “spins” are analogous t...

This is a schematic image of the crystal structure of high-entropy-alloy-type REO0.5F0.5BiS2. Credit: Yoshikazu Mizuguchi

Promising strategy for creating state-of-the-art layered superconductors. Researchers from Tokyo Metropolitan University have created new superconductors made of layers of bismuth sulfide (BiS2) and a high entropy rare earth alloy oxyfluoride, containing 5 different rare earth (RE) elements at the same crystallographic site. The new material retains superconducting properties over a wider range of lattice parameters than materials without high-entropy-alloy states. Their work promises an exciting new strategy for designing new layered superconductors, a potentially key development in the search for high-temperature superconductors.

Superconductors are key to a range of ...