Category Physics

Decorating Graphene Oxide with Ionic Liquid Nanodroplets: An Approach Leading to Energy-Dense, High-Voltage Supercapacitors

The ability to charge cellphones in seconds is one step closer after researchers at the University of Waterloo used nanotechnology to significantly improve supercapacitors. Their novel design roughly doubles the amount of electrical energy the rapid-charging devices can hold, helping pave the way for eventual use in everything from smartphones and laptop computers, to electric vehicles and high-powered lasers.

“We’re showing record numbers for the energy-storage capacity of supercapacitors,” said Michael Pope, a professor of chemical engineering who led the Waterloo research. “And the more energy-dense we can make them, the more batteries we can start displacing...

Scientists from Boson College and Harvard turned to copper to create a first-of-its-kind iridate – Cu2IrO3 – where the natural magnetic order is disrupted, a state known as geometric frustration. Credit: Boston College

Honeycomb lattice meets elusive standards of the Kitaev model. Researchers from Boston College and Harvard have created an elusive honeycomb-structured material capable of frustrating the magnetic properties within it in order to produce a chemical entity known as “spin liquid,” long theorized as a gateway to the free-flowing properties of quantum computing, according to a new report in the Journal of the American Chemical Society.

The first-of-its-kind copper iridate metal oxide – Cu2IrO3 – is one where the natural magnetic order is disrupted, a state known as geometric fru...

A single crystal of CaFe2As2 (scale bar 1 mm). Right: a micropillar of CaFe2As2, used to test its elasticity (scale bar 1 ?m). Credit: Image courtesy of DOE/Ames Laboratory

Scientists have discovered super-elastic shape-memory properties in a material that could be applied for use as an actuator in the harshest of conditions, such as outer space, and might be the first in a whole new class of shape memory materials. These materials “remember” their original shape and return to it after they are deformed. They are commonly metallic alloys that make possible “unbreakable” eyeglass frames and quieter jet engines.

But the material in this research, CaFe2As2, is not a metallic alloy but an intermetallic more well-known for its novel superconducting properties...

CUORE was assembled in this specially designed clean room to help protect it from contaminants. (Credit: CUORE collaboration)

Why does the universe favor matter over antimatter? The first glimpse of data from the full array of a deeply chilled particle detector operating beneath a mountain in Italy sets the most precise limits yet on where scientists might find a theorized process to help explain why there is more matter than antimatter in the universe. This new result is based on two months of data from the full detector of the CUORE (Cryogenic Underground Observatory for Rare Events) experiment at the Italian National Institute for Nuclear Physics’ (INFN’s) Gran Sasso National Laboratories (LNGS) in Italy. CUORE means “heart” in Italian.

CUORE is considered one of the most promising effo...