Detection of Flowing Fluorescent Particles in a Microcapillary Using Fluorescence Correlation Spectroscopy
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Capillary flow experiments are described with fluorescent molecules, bacteria, and microspheres using fluorescence correlation spectroscopy as an analytical tool. The flow velocity in the microcapillary is determined by fitting autocorrelation traces with a model containing parameters related to diffusion and flow. The flow profile of pressure-driven flow inside a microcapillary is determined by using the fluorescence fluctuations of a small dye molecule. It was found that bacteria and microspheres are retarded in their flow by optical forces produced by the laser beam.
Nikolic S, Oasa S, Krmpot A, Terenius L, Belic M, Rigler R Anal Chem. 2023; 95(41):15171-15179.
PMID: 37782779 PMC: 10585663. DOI: 10.1021/acs.analchem.3c01427.
Wang X, Liisberg M, Nolt G, Fu X, Cerretani C, Li L ACS Nano. 2023; 17(13):12862-12874.
PMID: 37341451 PMC: 11065323. DOI: 10.1021/acsnano.3c04489.
Fluorescence correlation spectroscopy: a review of biochemical and microfluidic applications.
Tian Y, Martinez M, Pappas D Appl Spectrosc. 2011; 65(4):115A-124A.
PMID: 21396180 PMC: 3071976. DOI: 10.1366/10-06224.
Nonequilibrium single molecule protein folding in a coaxial mixer.
Hamadani K, Weiss S Biophys J. 2008; 95(1):352-65.
PMID: 18339751 PMC: 2426651. DOI: 10.1529/biophysj.107.127431.
Chao S, Ho Y, Bailey V, Wang T J Fluoresc. 2007; 17(6):767-74.
PMID: 17653837 DOI: 10.1007/s10895-007-0194-0.