Scientists of Tomsk Polytechnic University jointly with teams from the University of Chemistry and Technology, Prague and Jan Evangelista Purkyne University in Ústí nad Labem have developed a new 2-D material to produce hydrogen, which is the basis of...
In an effort to improve large touchscreens, LED light panels and window-mounted infrared solar cells, researchers at the University of Michigan have made plastic conductive while also making it more transparent. They provide a recipe to help other researchers find...
McGill University researchers have gained tantalizing new insights into the properties of perovskites, one of the world's most promising materials in the quest to produce a more efficient, robust and cheaper solar cell. In a study published today in Nature Communications,...
Chameleons are famous for their color-changing abilities. Depending on their body temperature or mood, their nervous system directs skin tissue that contains nanocrystals to expand or contract, changing how the nanocrystals reflect light and turning the reptile's skin a...
As electronic devices saturate all corners of public and personal life, engineers are scrambling to find lightweight, mechanically stable, flexible, and easily manufactured materials that can shield humans from excessive electromagnetic radiation as well as prevent electronic devices from...
Metal droplets leave no thin layer of oxide skin on the surface, if this oxide skin is dissolved in an alkali base or acid. Credit: RMIT University Researchers from RMIT University in Melbourne, Australia, have used liquid metal to create two-dimensional...
A "film" drop (red) and "jet" drop (blue) from bursting bubble filmed 8 milliseconds apart. Credit: Dale Stokes A team of researchers led by the University of California San Diego has identified for the first time what drives the observed differences...
A collection of mini-spectrometer chips are arrayed on a tray after being made through conventional chip-making processes. Credit: Felice Frankel Spectrometers—devices that distinguish different wavelengths of light and are used to determine the chemical composition of everything from laboratory materials...
Much as yeast serves in bakeries as single-celled helper, the bacterium Escherischia coli is a must in every biotechnology lab. A team led by Prof. Dr. Barbara Di Ventura, professor of biological signaling research at the University of Freiburg, has developed...
A team of researchers from Tokyo Institute of Technology has gained unprecedented insight into the inner workings of an atomic switch. By investigating the composition of the tiny metal 'bridge' that forms inside the switch, their findings may spur...
On bright summer days, the sunlight all around us is breaking bad by breaking bonds. Chemical bonds. Ultraviolet light shatters the links between atoms in the DNA of our skin cells, potentially causing cancer. UV light also breaks oxygen bonds, eventually creating...