Researchers have created the first protein-based nano-computing agent that functions as a circuit. The milestone puts them one step closer to developing next-generation cell-based therapies to treat diseases like diabetes and cancer.
Depending on the friction and external bias forces they experience, self-propelled Brownian particles will take on one of four possible states of motion. The discovery could help researchers to draw deeper insights into the behaviours of these unique systems in nature and technology.
Researchers report an ultrafast laser processing technology based on non-contact microspheres, realizing smaller than 50 nm functional nano-patternings on the surface of phase change materials.
Researchers have succeeded in creating a superlattice of semiconductor quantum dots that can behave like a metal, potentially imparting exciting new properties to this popular class of materials.
Scientists propose a more generalized approach to improve the overall quality factors and robustness of symmetry-protected bound states in the continuum.
Researchers propose a chiral nanostructure design method based on reinforcement learning, which can find out metallic chiral nanostructures with a sharp peak in circular dichroism spectra and enhance the chiral detection signals. This work envisions the powerful roles of artificial intelligence in nanophotonic designs.
Researchers have applied their simple femtosecond laser technique to ultra-thin atomic layers of graphene, resulting in multi-point hole drilling without damaging the graphene film.
