Add to ORKGWe have constructed a nanoplasmonic molecular ruler, which can perform label-free and real-time monitoring of DNA length changes and perform DNA footprinting. The ruler was created by tethering double-stranded DNA to single Au nanoparticles. The scattering spectra of Au-DNA nanoconjugates showed red-shifted peak plasmon resonance wavelength dependent on DNA length, which can be measured with sub-nanometer axial resolution, averaging {approx}1.24 nm peak wavelength shift per DNA base pair. The spectra of individual Au-DNA nanoconjugates in the presence of nuclease showed a time-resolved dependence on the reaction dynamics, allowing quantitative, kinetic and real-time measurement of nuclease activity. The ruler was further developed into a ne...
Plasmon rulers consisting of optically coupled metal nanoparticles linked by biological macromolecul...
Gold nanoparticles have been used for colorimetric sensing due to its unique optical properties aris...
The light scattering and absorption properties of gold nanoparticles (GNPs) can be utilised for the ...
Pairs of Au nanoparticles have recently been proposed asplasmon rulers based on the dependence of th...
DNA polymerase catalyzes the replication of DNA, one of the key steps in cell division. The control ...
The use of DNA molecules as a physical computational material has attracted much interest, especiall...
An exquisite, versatile, and reproducible quantification of DNA loading on gold nanoparticles (Au NP...
We study the distance-dependent quenching of fluorescence due to a metallic nanoparticle in proximit...
We report a novel nanophotonic biosensor surface capable of both colorimetric detection and Raman-sc...
Molecular rulers based on Foerster Resonance Energy Transfer (FRET) that report conformational chang...
This is the author accepted manuscript. The final version is available from the American Chemical So...
We demonstrated a proof-of-principle concept of a label-free platform that enables nucleic acid sequ...
Solid-state nanopores promise a scalable platform for single-molecule DNA analysis. Direct, real-tim...
DNA-linked 2D and 3D nano-assemblies find use in a diverse set of applications, ranging from DNA-ori...
Single DNA molecule techniques have revolutionized our understanding of DNA-protein interactions. Tr...
Plasmon rulers consisting of optically coupled metal nanoparticles linked by biological macromolecul...
Gold nanoparticles have been used for colorimetric sensing due to its unique optical properties aris...
The light scattering and absorption properties of gold nanoparticles (GNPs) can be utilised for the ...
Pairs of Au nanoparticles have recently been proposed asplasmon rulers based on the dependence of th...
DNA polymerase catalyzes the replication of DNA, one of the key steps in cell division. The control ...
The use of DNA molecules as a physical computational material has attracted much interest, especiall...
An exquisite, versatile, and reproducible quantification of DNA loading on gold nanoparticles (Au NP...
We study the distance-dependent quenching of fluorescence due to a metallic nanoparticle in proximit...
We report a novel nanophotonic biosensor surface capable of both colorimetric detection and Raman-sc...
Molecular rulers based on Foerster Resonance Energy Transfer (FRET) that report conformational chang...
This is the author accepted manuscript. The final version is available from the American Chemical So...
We demonstrated a proof-of-principle concept of a label-free platform that enables nucleic acid sequ...
Solid-state nanopores promise a scalable platform for single-molecule DNA analysis. Direct, real-tim...
DNA-linked 2D and 3D nano-assemblies find use in a diverse set of applications, ranging from DNA-ori...
Single DNA molecule techniques have revolutionized our understanding of DNA-protein interactions. Tr...
Plasmon rulers consisting of optically coupled metal nanoparticles linked by biological macromolecul...
Gold nanoparticles have been used for colorimetric sensing due to its unique optical properties aris...
The light scattering and absorption properties of gold nanoparticles (GNPs) can be utilised for the ...