Molecular self-assembly strategies involve the formation of nanometer scale objects and
materials in the absence of significant external control. One increasingly popular self …

The specificity and reversibility of the hydrogen-bonding between two complementary
strands in DNA make this bio-molecule a unique binding agent. When DNA is grafted to …

Our recent advancements in RNA nanotechnology introduced novel nanoscaffolds
(nanorings); however, the potential of their use for biomedical applications was never fully …

Nanoengineering exploits the interactions of materials at the nanometre scale to create
functional nanostructures. It relies on the precise organization of nanomaterials to achieve …

We present two strategies for attaching self-assembled DNA arrays to the surfaces of cells.
Our first approach uses biotin− streptavidin interactions to bind DNA architectures to …

Experimental evidence indicates that the chromatin filament is self‐organized into a
multilayer planar structure that is densely stacked in metaphase and unstacked in …

This perspective aims to identify the relationships between the structural and dynamic
properties of chromosomes and the fundamental properties of soft-matter systems …

Self-assembly is one of the most used strategies in the controlled synthesis and design of
well-organized nanomaterials for various applications in diverse realms namely catalysis …

This research delves into the early nucleation stages of phycocyanin, a protein pivotal for its
fluorescent properties and crystalline stability and holding considerable potential for …

This work reports probing the Moiré effect directly at the nanometer scale via near-field
scanning optical microscopy (NSOM). Periodic metal nanostructures of Au and Cu have …