Many potential pharmaceuticals end up failing during clinical trials, but thanks to new research from the University of Illinois, biological molecules once considered for cancer treatment are now being repurposed as organic semiconductors for use in chemical sensors and...
It's a popular phrase used to describe people, things, and ideas that just don't mix—"like oil and water." Except it's not entirely true. Oil and water can mix, and can be very difficult to completely separate when brought together....
Some novel materials that sound too good to be true turn out to be true and good. An emergent class of semiconductors, which could affordably light up our future with nuanced colors emanating from lasers, lamps, and even window...
Artificial cells that release materials when exposed to light have been embedded in a durable membrane, allowing chemical reactions to be controlled.
These structures could be used to control the synthesis of drugs in the body on demand, as well...
Public water quality has received a lot of attention in recent years as some disturbing discoveries have been made regarding lead levels in cities across the country. Now, a new study from the Johns Hopkins University pinpoints other chemicals...
At the Monash University School of Chemistry, scientists under the leadership of Professor Doug MacFarlane and Dr. Mega Kar working with local company Calix Ltd have come up with alternative solutions to this challenge with new chemistry.
Lithium ion batteries...
Using surface-enhanced Raman spectroscopy, Columbia Engineers are first to observe how CO2 is activated at the electrode-electrolyte interface; their finding shifts the catalyst design from trial-and-error paradigm to a rational approach and could lead to alternative, cheaper, and safer...
A flexible lithium-ion battery designed by a team of researchers from the Johns Hopkins Applied Physics Laboratory and built to operate under extreme conditions—including cutting, submersion, and simulated ballistic impact—can now add incombustible to its résumé.
Current Li-ion batteries are...
Chemical signals (shown in purple and orange) switch an artificial receptor (shown as a grey helix) on and off. Credit: University of Bristol
Researchers from the University of Bristol have found a way to mimic the way cells in living...
University of Michigan researchers have developed a powerful microscope that can map how light energy migrates in photosynthetic bacteria on timescales of one-quadrillionth of a second.
The microscope could help researchers develop more efficient organic photovoltaic materials, a type of...
Researchers from Queen Mary University of London have developed new thermoelectric materials, which could provide a low-cost option for converting heat energy into electricity.
Materials known as halide perovskites have been proposed as affordable alternatives to existing thermoelectric materials, however so...














