DNA nanotechnology has now enabled the self-assembly of almost any prescribed 3-
dimensional nanoscale structure in large numbers and with high fidelity. These structures …

Coherence refers to correlations in waves. Because matter has a wave-particle nature, it is
unsurprising that coherence has deep connections with the most contemporary issues in …

Control over the copy number and nanoscale positioning of quantum dots (QDs) is critical to
their application to functional nanomaterials design. However, the multiple non-specific …

Hybrid RNA: DNA origami, in which a long RNA scaffold strand folds into a target
nanostructure via thermal annealing with complementary DNA oligos, has only been …

A fundamental endeavour in macromolecular science is the control of molecular-level
complexity, including molecular weight distribution, end groups and architecture. Since the …

Multiplexed, real-time fluorescence detection at the single-molecule level can reveal the
stoichiometry, dynamics and interactions of multiple molecular species in mixtures and other …

Control over the strength of excitonic coupling in molecular dye aggregates is a substantial
factor for the development of technologies such as light harvesting, optoelectronics, and …

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

Exciton coupling between two or more chromophores in a specific environment is a key
mechanism associated with color tuning and modulation of absorption energies. This …

Molecular materials for light harvesting, computing, and fluorescence imaging require
nanoscale integration of electronically active subunits. Variation in the optical absorption …