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 ...

Polymers, such as plastics, are essential in many aspects of life and industry, from packaging and cars to medical devices ...

Motivated by elegant biological helical structures, considerable effort has been devoted to developing artificial helical ...

Most current methods for storing DNA require freezing temperatures, so they consume a great deal of energy and are not feasible in many parts of the world. In contrast, the new amber-like polymer ...

According to a study published in Advanced Functional Materials, the Korea Institute of Science and Technology (KIST) ...

Researchers at Hiroshima University’s Graduate School of Advanced Science and Engineering have created an artificial polymer that self-organizes into a controllable helix, according to a study ...

MIT researchers have developed a new catalyst that converts methane into polymers at room temperature and atmospheric ...

A new design by researchers at the University of Virginia School of Engineering and Applied Science could solve the ...