2013
DOI: 10.1186/2192-2853-2-1
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Tip induced fluorescence quenching for nanometer optical and topographical resolution

Abstract: Progress in nanosciences and life sciences is closely related to developments of high resolution imaging techniques. We introduce a technique which produces correlated topography and fluorescence lifetime images with nanometer resolution. Spot sizes below 5 nm are achieved by quenching of the fluorescence with silicon probes of an atomic force microscope which is combined and synchronized with a confocal fluorescence lifetime microscope. Moreover, we demonstrate the ability to locate and resolve the position o… Show more

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Cited by 27 publications
(19 citation statements)
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“…Fitting of experimental lifetime values by using Equation(6). The unperturbed lifetime t 0 obtained as a fit parameter is 2.78 ns, which is in good agreement with the lifetime of Atto655 measured in air on glass [39]. …”
supporting
confidence: 78%
“…Fitting of experimental lifetime values by using Equation(6). The unperturbed lifetime t 0 obtained as a fit parameter is 2.78 ns, which is in good agreement with the lifetime of Atto655 measured in air on glass [39]. …”
supporting
confidence: 78%
“…Silicon probes expose only a moderate field enhancement and the dipolar coupling between probe and dye is less pronounced [4]. Even though, silicon tips can quench the fluorescence emission at close proximity [14]. Moreover, the elaborate probe design of custom-made tips demand complex fabrication processes and substantial experience [3,7,1213 1517].…”
Section: Introductionmentioning
confidence: 99%
“…Because the brightness of the single molecules is too weak for high-speed imaging, averaging over longer exposure times was necessary. We imaged individual molecules of Atto 655, a fluorescence label shown to be very stable and to exhibit little blinking on glass surfaces under dry conditions (10). Two-dimensional Gaussians were fit to the single-molecule emission spots in the CSD image and in the CSD-ISM image for multiple scans.…”
Section: (Compare Figs 1 and 2c And Fourier Reweighting)mentioning
confidence: 99%