A chemist from Purdue University has found a way to synthesize a compound to fight a previously "undruggable" cancer protein with benefits across a myriad of cancer types. Inspired by a rare compound found in a shrub native to North...
A team of materials scientists from Penn State, Cornell and Argonne National Laboratory have, for the first time, visualized the 3-D atomic and electron density structure of the most complex perovskite crystal structure system decoded to date. Perovskites are minerals...
Traditional leather and its alternatives are typically obtained from animals and synthetic polymers. Leather can be considered a co-product of meat production with both livestock farming and the leather production process increasingly considered to be ethically questionable and environmentally...
A team of researchers at The University of Texas at Austin and the University of California, Riverside have found a way to produce a long-hypothesized phenomenon—the transfer of energy between silicon and organic, carbon-based molecules—in a breakthrough that has...
MIT chemists have devised a way to synthesize polymers that can break down more readily in the body and in the environment. A chemical reaction called ring-opening metathesis polymerization, or ROMP, is handy for building novel polymers for various uses...
Long known as the hardest of all natural materials, diamonds are also exceptional thermal conductors and electrical insulators. Now, researchers have discovered a way to tweak tiny needles of diamond in a controlled way to transform their electronic properties,...
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...
A new way to calculate the interaction between a metal and its alloying material could speed the hunt for a new material that combines the hardness of ceramic with the resilience of metal. The discovery, made by engineers at the...
Chemical engineers from UNSW Sydney have developed new technology that helps convert harmful carbon dioxide emissions into chemical building blocks to make useful industrial products like fuel and plastics. And if validated in an industrial setting and adopted on a...
The results of tests conducted by UConn chemists show that nicotine electronic cigarettes are equivalent, if not slightly worse, than unfiltered (nf) tobacco cigarettes when it comes to causing DNA damage. Non-nicotine (nn) e-cigarettes cause damage similar to filtered...
Electronegativity is one of the most well-known models for explaining why chemical reactions occur. Now, Martin Rahm from Chalmers University of Technology, Sweden, has redefined the concept with a new, more comprehensive scale. His work, undertaken with colleagues including...