Researchers have uncovered a new phenomenon in graphene research, observing growth-induced self-organized ABA and ABC stacking domains that could kick-start the development of advanced quantum technologies.
These small particles are reminiscent of paper flowers or desert roses. Physicians can use them to guide medicines to a precise destination within the body.
Researchers have developed an artificial intelligence (AI) framework which autonomously discovers new experimental designs in microscopy. The framework, called XLuminA, performs optimizations 10,000 times faster than well-established methods.
Researchers unveil a method to precisely create four-stranded berta-sheets via metal-peptide coordination, overcoming aggregation and isomeric challenges.
Researchers reveal how polaritons, hybrid light-matter particles, can be controlled at room temperature using electric fields, opening the door to faster, more efficient computing systems.
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 have developed an artificial polymer that organizes itself into a controlled helix.
Researchers have made a breakthrough stride in advancing spectro-polarimetric imaging by merging the fields of novel optical materials and computational imaging.
