[HTML][HTML] Pursuing excitonic energy transfer with programmable DNA-based optical breadboards
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 …
dimensional nanoscale structure in large numbers and with high fidelity. These structures …
Emission manipulation by DNA origami‐assisted plasmonic nanoantennas
ATM Yeşilyurt, JS Huang - Advanced Optical Materials, 2021 - Wiley Online Library
Plasmonic nanoantennas mediate far and near optical fields and confine the light to
subwavelength dimensions. The spatial organization of nanoantenna elements is critical as …
subwavelength dimensions. The spatial organization of nanoantenna elements is critical as …
DNA self-assembly of single molecules with deterministic position and orientation
An ideal nanofabrication method should allow the organization of nanoparticles and
molecules with nanometric positional precision, stoichiometric control, and well-defined …
molecules with nanometric positional precision, stoichiometric control, and well-defined …
Biopolymer photonics: From nature to nanotechnology
Biopolymers offer vast potential for renewable and sustainable devices. While nature
mastered the use of biopolymers to create highly complex 3D structures and optimized their …
mastered the use of biopolymers to create highly complex 3D structures and optimized their …
Rapid DNA origami nanostructure detection and classification using the YOLOv5 deep convolutional neural network
The intra-image identification of DNA structures is essential to rapid prototyping and quality
control of self-assembled DNA origami scaffold systems. We postulate that the YOLO …
control of self-assembled DNA origami scaffold systems. We postulate that the YOLO …
Strategies for controlling the spatial orientation of single molecules tethered on DNA origami templates physisorbed on glass substrates: Intercalation and stretching
K Cervantes-Salguero, A Biaggne… - International journal of …, 2022 - mdpi.com
Nanoarchitectural control of matter is crucial for next-generation technologies. DNA origami
templates are harnessed to accurately position single molecules; however, direct single …
templates are harnessed to accurately position single molecules; however, direct single …
Tuning optical absorption and emission using strongly coupled dimers in programmable DNA scaffolds
Molecular materials for light harvesting, computing, and fluorescence imaging require
nanoscale integration of electronically active subunits. Variation in the optical absorption …
nanoscale integration of electronically active subunits. Variation in the optical absorption …
Understanding forster resonance energy transfer in the sheet regime with DNA brick-based dye networks
Controlling excitonic energy transfer at the molecular level is a key requirement for
transitioning nanophotonics research to viable devices with the main inspiration coming …
transitioning nanophotonics research to viable devices with the main inspiration coming …
Developing FRET networks for sensing
Förster resonance energy transfer (FRET) is a widely used fluorescence-based sensing
mechanism. To date, most implementations of FRET sensors have relied on a discrete donor …
mechanism. To date, most implementations of FRET sensors have relied on a discrete donor …
Engineering exciton dynamics with synthetic DNA scaffolds
Conspectus Excitons are the molecular-scale currency of electronic energy. Control over
excitons enables energy to be directed and harnessed for light harvesting, electronics, and …
excitons enables energy to be directed and harnessed for light harvesting, electronics, and …