Helical structures are ubiquitous across biology, from the double-stranded helix of DNA to how heart muscle cells spiral in a band. Inspired by this twisty ladder, researchers from Hiroshima ...
UVa researchers have developed a polymer that defies traditional trade-offs between stiffness and stretchability, enabling ...
In a significant advancement in the field of anti-counterfeiting technology, Professor Jiseok Lee and his research team in ...
Motivated by elegant biological helical structures, considerable effort has been devoted to developing artificial helical ...
This study presents an all-polymer aqueous sodium-ion battery using PANI electrodes, achieving high stability and capacity ...
Rising use of methyl ethyl ketone peroxide in polymer and composite assembling is driving development in the worldwide methyl ...
The fluorinated containers industry in the USA is expected to grow at a CAGR of 2.8% by 2034, outpacing other North American ...
Scripps Research, the Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab), and several other ...
MIT chemical engineers have designed a two-part catalyst to capture methane, a potent greenhouse gas, and convert it into ...
Chemical engineers at the Massachusetts Institute of Technology (MIT) have developed a catalyst that can convert methane into ...
MUSCAT: Eight months after announcing its ambitious $250 million expansion plan in Oman, SNF, the polyacrylamide worldwide ...
A team of scientists has created a new shape-changing polymer that could transform how future soft materials are constructed.