Add to ORKGSingle-molecule nanodot arrays, in which a biomolecule of choice (protein, nucleic acid, etc.) is bound to a metallic nanoparticle on a solid substrate, are becoming an increasingly important tool in the study of biomolecular and cellular interactions. We have developed an on-chip measurement protocol to monitor and control the molecular occupancy of nanodots. Arrays of widely spaced nanodots and nanodot clusters were fabricated on glass surfaces by nanolithography and functionalized with fluorescently labeled proteins. The molecular occupancy was determined by monitoring individual fluorophore bleaching events, while accounting for fluorescence quenching effects. We found that the occupancy can be interpreted as a packing problem, and depe...
\u3cp\u3eThe ability of nanoparticles to selectively recognize a molecular target constitutes the ke...
The advent of personalized medicine will require biosensors capable of reliably detecting small leve...
Recent advances in fluorescence super-resolution microscopy have allowed sub-cellular features and s...
Single-molecule nanodot arrays, in which a biomolecule of choice (protein, nucleic acid, etc.) is bo...
Single-molecule nanodot arrays, in which a biomolecule of choice (protein, nucleic acid, etc.) is bo...
Single-molecule nanodot arrays, in which a biomolecule of choice (protein, nucleic acid, etc.) is bo...
Physical factors in the environment of a cell affect its function and behavior in a variety of ways....
In this chapter, we present techniques, based on molecular-scale nanofabrication and selective self-...
International audienceArrays of protein nano-dots with dot-size tuned independently of spacing (e.g....
Arrays of protein nanodots with dot-size tuned independently of spacing (e.g., ∼100 to 600 nm diamet...
The authors describe the deposition of single biomolecules on substrates at defined spacing by pure ...
This thesis describes methods for constructing nanopatterned surfaces to array DNA. These surfaces e...
Quantum dot (QD) based micro-/nanopatterned arrays are of broad interest in applications ranging fro...
This dissertation describes the development of a new method for increasing the resolution of the cur...
We present results on the dynamic fluorescence properties of bioconjugated nanocrystals or quantum d...
\u3cp\u3eThe ability of nanoparticles to selectively recognize a molecular target constitutes the ke...
The advent of personalized medicine will require biosensors capable of reliably detecting small leve...
Recent advances in fluorescence super-resolution microscopy have allowed sub-cellular features and s...
Single-molecule nanodot arrays, in which a biomolecule of choice (protein, nucleic acid, etc.) is bo...
Single-molecule nanodot arrays, in which a biomolecule of choice (protein, nucleic acid, etc.) is bo...
Single-molecule nanodot arrays, in which a biomolecule of choice (protein, nucleic acid, etc.) is bo...
Physical factors in the environment of a cell affect its function and behavior in a variety of ways....
In this chapter, we present techniques, based on molecular-scale nanofabrication and selective self-...
International audienceArrays of protein nano-dots with dot-size tuned independently of spacing (e.g....
Arrays of protein nanodots with dot-size tuned independently of spacing (e.g., ∼100 to 600 nm diamet...
The authors describe the deposition of single biomolecules on substrates at defined spacing by pure ...
This thesis describes methods for constructing nanopatterned surfaces to array DNA. These surfaces e...
Quantum dot (QD) based micro-/nanopatterned arrays are of broad interest in applications ranging fro...
This dissertation describes the development of a new method for increasing the resolution of the cur...
We present results on the dynamic fluorescence properties of bioconjugated nanocrystals or quantum d...
\u3cp\u3eThe ability of nanoparticles to selectively recognize a molecular target constitutes the ke...
The advent of personalized medicine will require biosensors capable of reliably detecting small leve...
Recent advances in fluorescence super-resolution microscopy have allowed sub-cellular features and s...