Multichromophoric dendrimers as single-photon sources: A single-molecule study
Masuo S, Vosch T, Cotlet M, Tinnefeld P, Habuchi S, Bell TDM, Oesterling I, Beljonne D, Champagne B, Mullen K, Sauer M, et al. (2004)
JOURNAL OF PHYSICAL CHEMISTRY B 108(43): 16686-16696.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Masuo, S;
Vosch, T;
Cotlet, M;
Tinnefeld, P;
Habuchi, S;
Bell, TDM;
Oesterling, I;
Beljonne, D;
Champagne, B;
Mullen, K;
Sauer, MarkusUniBi;
Hofkens, J
Alle
Alle
Einrichtung
Abstract / Bemerkung
Single-molecule fluorescence spectroscopy was performed on a number of multi-peryleneimide substituted polyphenylene dendrimers for the purpose of investigating the parameters which influence the efficiency of the dendrimers as single-photon sources at room temperature. Analysis of fluorescence intensity, lifetime, and interphoton arrival time distribution revealed that all measured first-generation dendrimers behave as single-photon emitters when more than one chromophore is excited by a single excitation pulse regardless of the number of constituent chromophores. This is a result of efficient singlet-singlet annihilation, which becomes less efficient in higher-generation dendrimers when the interchromophoric distance increases. The efficiency of the investigated dendrimers as single-photon sources depends on several other parameters, such as the nature of the surrounding polymer matrix, the number of chromophores, and the extent of interchromophoric interactions. These parameters mainly affect the frequency of singlet-triplet annihilation, which in turn dominates the quality of these multichromophoric dendrimers as single-photon sources. The results reported here are important not only for the design of single-photon sources based on single organic molecules but also for a fundamental understanding of natural and artificial multichromophoric systems.
Erscheinungsjahr
2004
Zeitschriftentitel
JOURNAL OF PHYSICAL CHEMISTRY B
Band
108
Ausgabe
43
Seite(n)
16686-16696
ISSN
1520-6106
eISSN
1520-5207
Page URI
https://pub.uni-bielefeld.de/record/1606137
Zitieren
Masuo S, Vosch T, Cotlet M, et al. Multichromophoric dendrimers as single-photon sources: A single-molecule study. JOURNAL OF PHYSICAL CHEMISTRY B. 2004;108(43):16686-16696.
Masuo, S., Vosch, T., Cotlet, M., Tinnefeld, P., Habuchi, S., Bell, T. D. M., Oesterling, I., et al. (2004). Multichromophoric dendrimers as single-photon sources: A single-molecule study. JOURNAL OF PHYSICAL CHEMISTRY B, 108(43), 16686-16696. https://doi.org/10.1021/jp047804b
Masuo, S, Vosch, T, Cotlet, M, Tinnefeld, P, Habuchi, S, Bell, TDM, Oesterling, I, et al. 2004. “Multichromophoric dendrimers as single-photon sources: A single-molecule study”. JOURNAL OF PHYSICAL CHEMISTRY B 108 (43): 16686-16696.
Masuo, S., Vosch, T., Cotlet, M., Tinnefeld, P., Habuchi, S., Bell, T. D. M., Oesterling, I., Beljonne, D., Champagne, B., Mullen, K., et al. (2004). Multichromophoric dendrimers as single-photon sources: A single-molecule study. JOURNAL OF PHYSICAL CHEMISTRY B 108, 16686-16696.
Masuo, S., et al., 2004. Multichromophoric dendrimers as single-photon sources: A single-molecule study. JOURNAL OF PHYSICAL CHEMISTRY B, 108(43), p 16686-16696.
S. Masuo, et al., “Multichromophoric dendrimers as single-photon sources: A single-molecule study”, JOURNAL OF PHYSICAL CHEMISTRY B, vol. 108, 2004, pp. 16686-16696.
Masuo, S., Vosch, T., Cotlet, M., Tinnefeld, P., Habuchi, S., Bell, T.D.M., Oesterling, I., Beljonne, D., Champagne, B., Mullen, K., Sauer, M., Hofkens, J., De Schryver, F.C.: Multichromophoric dendrimers as single-photon sources: A single-molecule study. JOURNAL OF PHYSICAL CHEMISTRY B. 108, 16686-16696 (2004).
Masuo, S, Vosch, T, Cotlet, M, Tinnefeld, P, Habuchi, S, Bell, TDM, Oesterling, I, Beljonne, D, Champagne, B, Mullen, K, Sauer, Markus, Hofkens, J, and De Schryver, FC. “Multichromophoric dendrimers as single-photon sources: A single-molecule study”. JOURNAL OF PHYSICAL CHEMISTRY B 108.43 (2004): 16686-16696.
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