A. Renn scite author profile

A. Renn

4Publications

89Citation Statements Received

54Citation Statements Given

How they've been cited

135

How they cite others

Affiliations

University of Lausanne, École Polytechnique Fédérale de Lausanne, Board of the Swiss Federal Institutes of Technology

Publications

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Single-Molecule Identification by Spectrally and Time-Resolved Fluorescence Detection

et al. 1999

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A method to identify single molecules rapidly and with high efficiency based on simple probability considerations is proposed. In principle, any property of a detected photon in a single-molecule fluorescence experiment, e.g., emission wavelength, arrival time after pulsed excitation, and polarization, can be analyzed within the framework of the outlined methodology. Monte Carlo simulations show that less than 500 photons are needed to assign an observed single molecule to one out of four species with a confidence level higher than 99.9%. We show that single dye molecules of four different dyes embedded in a polymer film can be identified with time-correlated single-photon counting spectrally resolved in two channels.

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Multiparameter Microscopy and Spectroscopy for Single-Molecule Analytics

et al. 2004

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The ability to monitor several parameters simultaneously from distinct individual fluorescent reporter molecules facilitates the disentanglement of complex and interacting systems and opens new perspectives in areas from basic science to biopharmaceutical technology. By combining annular illumination microscopy, time-correlated single-photon counting, and multichannel detection, we were able to determine 14 independent parameters from one individual fluorophore. The whole set of parameters was deduced from the few properties of the fluorescence photons, i.e., arrival time, wavelength, and polarization. With this approach, the intensity, the polarization, and the spectral dynamics can be analyzed on a nanosecond time scale and the mean values can be monitored with submillisecond time resolution. Nanosecond spectral dynamics of single molecules has been observed, to the best of our knowledge, for the first time. From our experience, we can determine all parameters for more than 30% of the illuminated fluorophores in biological samples and for more than 80% in doped polymeric films.

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Single molecule spectroscopy of Mg-tetrazaporphyrin in xenon matrix.

et al. 2002

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From supramolecular photochemistry to the molecular computer

Wild¹,

Bernet²,

Kohler³

et al. 1992

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A. Renn

Single-Molecule Identification by Spectrally and Time-Resolved Fluorescence Detection

Multiparameter Microscopy and Spectroscopy for Single-Molecule Analytics

Single molecule spectroscopy of Mg-tetrazaporphyrin in xenon matrix.

From supramolecular photochemistry to the molecular computer

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