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 …

Over the past three decades DNA has emerged as an exceptional molecular building block
for nanoconstruction due to its predictable conformation and programmable intra-and …

Plasmonic sensors are extremely promising candidates for label-free single-molecule
analysis but require exquisite control over the physical arrangement of metallic …

The specificity and simplicity of the Watson–Crick base pair interactions make DNA one of
the most versatile construction materials for creating nanoscale structures and devices …

Circular dichroism spectra of naturally occurring molecules and also of synthetic chiral
arrangements of plasmonic particles often exhibit characteristic bisignate shapes. Such …

Plasmonic structures allow the manipulation of light with materials that are smaller than the
optical wavelength. Such structures can consist of plasmonically active metal nanoparticles …

Plasmonic nanoparticles hold great promise as photon handling elements and as channels
for coherent transfer of energy and information in future all-optical computing devices …

Develo** reliable methods of constructing cell-free multienzyme biocatalytic systems is a
milestone goal of synthetic biology. It would enable overcoming the limitations of current cell …

The high programmability of DNA origami has provided tools for precise manipulation of
matter at the nanoscale. This manipulation of matter opens up the possibility to arrange …

DNA self‐assembly has proven to be a highly versatile tool for engineering complex and
dynamic biocompatible nanostructures from the bottom up with a wide range of potential …