Add to ORKGAbstract. An overview of our recent results in modeling single molecule detection in fluid flow is presented. Our mathematical approach is based on a path integral representation. The model accounts for all experimental details, such as light collection, laser excitation, hydrodynamics and diffusion, and molecular photophysics. Special attention is paid to multiple molecule crossings through the detection volume. Numerical realization of the theory is discussed. Measurements of burst size distributions in single B-phycoerythrin molecule detection experiments are presented and compared with theoretical predictions
Several Monte Carlo simulations of single-molecule fluorescence systems are developed to help evalua...
In FY 1998 our efforts were in three main areas, all related to detecting single fluorescent molecul...
Time-resolved single molecule fluorescence measurements are important probes for the conformational ...
An overview of our recent results in modeling single molecule detection in fluid flow is presented. ...
Optimization of molecular detection efficiencies is important for analytical applications of single ...
In the last one decade or so, a variety of optical experiments have been designed and performed that...
A single-molecule flow analyzer based on laser induced fluorescence and hydrodynamic focusing was de...
International audienceThe applicability of single-molecule fluorescence assays in liquids is limited...
In this article we describe a detailed comparison between single molecule detection in three differe...
In this dissertation, I present signal processing techniques used in investigating single molecule k...
Three exact criteria are first derived for the probabilities that determine single molecule sensitiv...
The advent of single molecule microscopy enabled the study of subcellular processes at the single mo...
Single-molecule microscopy is a relatively new optical microscopy technique that allows the detectio...
A method to identify single molecules rapidly and with high efficiency based on simple probability c...
Computer modeling and analysis methods are developed for two modes of operation of an instrument for...
Several Monte Carlo simulations of single-molecule fluorescence systems are developed to help evalua...
In FY 1998 our efforts were in three main areas, all related to detecting single fluorescent molecul...
Time-resolved single molecule fluorescence measurements are important probes for the conformational ...
An overview of our recent results in modeling single molecule detection in fluid flow is presented. ...
Optimization of molecular detection efficiencies is important for analytical applications of single ...
In the last one decade or so, a variety of optical experiments have been designed and performed that...
A single-molecule flow analyzer based on laser induced fluorescence and hydrodynamic focusing was de...
International audienceThe applicability of single-molecule fluorescence assays in liquids is limited...
In this article we describe a detailed comparison between single molecule detection in three differe...
In this dissertation, I present signal processing techniques used in investigating single molecule k...
Three exact criteria are first derived for the probabilities that determine single molecule sensitiv...
The advent of single molecule microscopy enabled the study of subcellular processes at the single mo...
Single-molecule microscopy is a relatively new optical microscopy technique that allows the detectio...
A method to identify single molecules rapidly and with high efficiency based on simple probability c...
Computer modeling and analysis methods are developed for two modes of operation of an instrument for...
Several Monte Carlo simulations of single-molecule fluorescence systems are developed to help evalua...
In FY 1998 our efforts were in three main areas, all related to detecting single fluorescent molecul...
Time-resolved single molecule fluorescence measurements are important probes for the conformational ...