Biological materials are self-assembled with near-atomic precision in living cells, whereas
synthetic 3D structures generally lack such precision and controllability. Recently, DNA …

DNA has become one of the most extensively used molecular building blocks for
engineering self-assembling materials. DNA origami is a technique that uses hundreds of …

DNA, a genetic material, has been employed in different scientific directions for various
biological applications as driven by DNA nanotechnology in the past decades, including …

To impart directionality to the motions of a molecular mechanism, one must overcome the
random thermal forces that are ubiquitous on such small scales and in liquid solution at …

Resonant cavities are essential building blocks governing many wave-based phenomena,
but their geometry and reciprocity fundamentally limit the integration of optical devices. We …

This Review focuses on the integration of plasmonic and dielectric metasurfaces with
emissive or stimuli-responsive materials for manipulating light–matter interactions at the …

The predictable nature of DNA interactions enables the programmable assembly of highly
advanced 2D and 3D DNA structures of nanoscale dimensions. The access to ever larger …

Self-assembled DNA nanostructures enable nanometre-precise patterning that can be used
to create programmable molecular machines,,,, and arrays of functional materials,,. DNA …

The use of dynamic, self-assembled DNA nanostructures in the context of nanorobotics
requires fast and reliable actuation mechanisms. We therefore created a 55-nanometer–by …

The interaction between light and matter can be controlled efficiently by structuring materials
at a length scale shorter than the wavelength of interest. With the goal to build optical …