DNA origami is a cutting-edge DNA self-assembly technique that neatly folds DNA strands
and creates specific structures based on the complementary base pairing principle. These …

DNA nanotechnology is a unique field, where physics, chemistry, biology, mathematics,
engineering, and materials science can elegantly converge. Since the original proposal of …

Scalable fabrication of two-dimensional (2D) arrays of quantum dots (QDs) and quantum
rods (QRs) with nanoscale precision is required for numerous device applications. However …

Hierarchical assembly of programmable DNA frameworks─ such as DNA origami─ paves
the way for versatile nanometer-precise parallel nanopatterning up to macroscopic scales …

Recent advances in constructing a structured DNA assembly whose configuration can be
dynamically changed in response to external stimuli have demanded the development of an …

We introduce a toehold-mediated strand displacement strategy for regulated shape-
switching of nucleic acid nanoparticles (NANPs) enabling their sequential transformation …

DNA nanostructures are emerging as promising biosensing platforms due to their
programmability, predictable assembly, and compatibility with aptamers for enhanced …

Natural light-harvesting systems spatially organize densely packed dyes in different
configurations to either transport excitons or convert them into charged photoproducts, with …

Structural bioinspiration in modern material science and biomimetics represents an actual
trend that was originally based on the bioarchitectural diversity of invertebrate skeletons …

Due to the sequence programmability, good biocompatibility, versatile functionalities and
vast sequence space, DNA oligonucleotides are considered to be ideal building blocks for …