Content by Penn State Materials Research Institute
The mechanisms that kill Salmonella at lower temperatures were not fully understood until now, according to a team of researchers
Researchers from Penn State and Princeton University have taken a big step toward creating a diode laser from a hybrid organic-inorganic material that can be deposited from solution on a laboratory benchtop
Prior to Penn State researchers' work, no one had devised a general way to control the location and type of grain boundaries in 2D materials
New method will better help researchers analyze defects in such materials
An international team of scientists led by Penn State may have solved the 30-year-old riddle of why certain ferroelectric crystals exhibit extremely strong piezoelectric responses
The fluorescent sensor, derived from citric acid molecules, is highly sensitive and highly selective for chloride, the key diagnostic marker in cystic fibrosis
"This work is an excellent example of the materials advances possible when we close the feedback loop between first principles calculations and atomic resolution electron microscopy," says researcher
This technique can detect trace amounts of molecules in a solution at very low concentrations, some 10,000 times more diluted than can be seen by the naked eye
Or will these potentially life-saving technologies never make it out of the lab?
Vanadium dioxide leads to a better transistor
In subway stations around London, the warning to “Mind the Gap” helps commuters keep from stepping into empty space as they leave the train. When it comes to engineering single-layer atomic structures, minding the gap will help researchers create artificial electronic materials one atomic layer at a time.