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

DNA is a compelling alternative to non-volatile information storage technologies due to its
information density, stability, and energy efficiency. Previous studies have used artificially …

To fabricate quantum dot arrays with programmable periodicity, functionalized DNA origami
nanotubes were developed. Selected DNA staple strands were biotin-labeled to form …

To bring real-world applications of DNA nanostructures to fruition, advanced microscopy
techniques are needed to shed light on factors limiting the availability of addressable sites. …

DNA origami templated self-assembly has shown its potential in creating rationally designed
nanophotonic devices in a parallel and repeatable manner. In this investigation, we employ …

A promising application of DNA self-assembly is the fabrication of chromophore-based
excitonic devices. DNA brick assembly is a compelling method for creating programmable …

Fluorescence resonance energy transfer (FRET) is a promising means of enabling information
processing in nanoscale devices, but dynamic control over exciton pathways is required. …

Nanoarchitectural control of matter is crucial for next-generation technologies. DNA origami
templates are harnessed to accurately position single molecules; however, direct single …

DNA‐based photonic wires that exploit Förster resonance energy transfer (FRET) between
pendant fluorophores to direct and focus excitonic energy have high research interest due to …

DNA nanotechnology holds the potential for enabling new tools for biomedical engineering,
including diagnosis, prognosis, and therapeutics. However, applications for DNA devices …