Modulating Charge Separation and Charge Recombination Dynamics in Porphyrin−Fullerene Linked Dyads and Triads:  Marcus-Normal versus Inverted Region

Modulating Charge Separation and Charge Recombination Dynamics in Porphyrin−Fullerene Linked Dyads and Triads:  Marcus-Normal versus Inverted Region

Photoinduced charge separation (CS) and charge recombination (CR) processes have been examined in various porphyrin−fullerene linked systems (i.e., dyads and triads) by means of time-resolved transient absorption spectroscopy and fluorescence lifetime measurements. The investigated compounds compris...

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Veröffentlicht in:Journal of the American Chemical Society 2001-03, Vol.123 (11), p.2607-2617
Hauptverfasser: Imahori, Hiroshi, Tamaki, Koichi, Guldi, Dirk M, Luo, Chuping, Fujitsuka, Mamoru, Ito, Osamu, Sakata, Yoshiteru, Fukuzumi, Shunichi
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Porphyrins - chemistry
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container_end_page 2617
container_issue 11
container_start_page 2607
container_title Journal of the American Chemical Society
container_volume 123
creator Imahori, Hiroshi
Tamaki, Koichi
Guldi, Dirk M
Luo, Chuping
Fujitsuka, Mamoru
Ito, Osamu
Sakata, Yoshiteru
Fukuzumi, Shunichi
description Photoinduced charge separation (CS) and charge recombination (CR) processes have been examined in various porphyrin−fullerene linked systems (i.e., dyads and triads) by means of time-resolved transient absorption spectroscopy and fluorescence lifetime measurements. The investigated compounds comprise a homologous series of rigidly linked, linear donor−acceptor arrays with different donor−acceptor separations and diversified donor strength:  freebase porphyrin−C60 dyad (H 2 P - C 60 ), zincporphyrin−C60 dyad (ZnP - C 60 ), ferrocene−zincporphyrin−C60 triad (Fc-ZnP - C 60 ), ferrocene−freebase porphyrin−C60 triad (Fc-H 2 P - C 60 ), and zincporphyrin−freebase porphyrin−C60 triad (ZnP - H 2 P - C 60 ). Most importantly, the lowest lying charge-separated state of all the investigated systems, namely, that of ferrocenium ion (Fc+) and the C60 radical anion (C60 •-) pair in the Fc-ZnP - C 60 triad, has been generated with the highest quantum yields (close to unity) and reveals a lifetime as long as 16 μs. Determination of CS and CR rate constants, together with the one-electron redox potentials of the donor and acceptor moieties in different solvents, has allowed us to examine the driving force dependence (−ΔG 0 ET) of the electron-transfer rate constants (k ET). Hereby, the semilogarithmic plots (i.e., log k ET versus −ΔG 0 ET) lead to the evaluation of the reorganization energy (λ) and the electronic coupling matrix element (V) in light of the Marcus theory of electron-transfer reactions:  λ = 0.66 eV and V = 3.9 cm-1 for ZnP - C 60 dyadand λ = 1.09 eV and V = 0.019 cm-1 for Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 triads. Interestingly, the Marcus plot in Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 has provided clear evidence for intramolecular CR located in both the normal and inverted regions of the Marcus parabola. The coefficient for the distance dependence of V (damping factor:  βCR = 0.58 Å-1) is deduced which depends primarily on the nature of the bridging molecule.
doi_str_mv 10.1021/ja003346i
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The investigated compounds comprise a homologous series of rigidly linked, linear donor−acceptor arrays with different donor−acceptor separations and diversified donor strength:  freebase porphyrin−C60 dyad (H 2 P - C 60 ), zincporphyrin−C60 dyad (ZnP - C 60 ), ferrocene−zincporphyrin−C60 triad (Fc-ZnP - C 60 ), ferrocene−freebase porphyrin−C60 triad (Fc-H 2 P - C 60 ), and zincporphyrin−freebase porphyrin−C60 triad (ZnP - H 2 P - C 60 ). Most importantly, the lowest lying charge-separated state of all the investigated systems, namely, that of ferrocenium ion (Fc+) and the C60 radical anion (C60 •-) pair in the Fc-ZnP - C 60 triad, has been generated with the highest quantum yields (close to unity) and reveals a lifetime as long as 16 μs. Determination of CS and CR rate constants, together with the one-electron redox potentials of the donor and acceptor moieties in different solvents, has allowed us to examine the driving force dependence (−ΔG 0 ET) of the electron-transfer rate constants (k ET). Hereby, the semilogarithmic plots (i.e., log k ET versus −ΔG 0 ET) lead to the evaluation of the reorganization energy (λ) and the electronic coupling matrix element (V) in light of the Marcus theory of electron-transfer reactions:  λ = 0.66 eV and V = 3.9 cm-1 for ZnP - C 60 dyadand λ = 1.09 eV and V = 0.019 cm-1 for Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 triads. Interestingly, the Marcus plot in Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 has provided clear evidence for intramolecular CR located in both the normal and inverted regions of the Marcus parabola. 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Am. Chem. Soc</addtitle><description>Photoinduced charge separation (CS) and charge recombination (CR) processes have been examined in various porphyrin−fullerene linked systems (i.e., dyads and triads) by means of time-resolved transient absorption spectroscopy and fluorescence lifetime measurements. The investigated compounds comprise a homologous series of rigidly linked, linear donor−acceptor arrays with different donor−acceptor separations and diversified donor strength:  freebase porphyrin−C60 dyad (H 2 P - C 60 ), zincporphyrin−C60 dyad (ZnP - C 60 ), ferrocene−zincporphyrin−C60 triad (Fc-ZnP - C 60 ), ferrocene−freebase porphyrin−C60 triad (Fc-H 2 P - C 60 ), and zincporphyrin−freebase porphyrin−C60 triad (ZnP - H 2 P - C 60 ). Most importantly, the lowest lying charge-separated state of all the investigated systems, namely, that of ferrocenium ion (Fc+) and the C60 radical anion (C60 •-) pair in the Fc-ZnP - C 60 triad, has been generated with the highest quantum yields (close to unity) and reveals a lifetime as long as 16 μs. Determination of CS and CR rate constants, together with the one-electron redox potentials of the donor and acceptor moieties in different solvents, has allowed us to examine the driving force dependence (−ΔG 0 ET) of the electron-transfer rate constants (k ET). Hereby, the semilogarithmic plots (i.e., log k ET versus −ΔG 0 ET) lead to the evaluation of the reorganization energy (λ) and the electronic coupling matrix element (V) in light of the Marcus theory of electron-transfer reactions:  λ = 0.66 eV and V = 3.9 cm-1 for ZnP - C 60 dyadand λ = 1.09 eV and V = 0.019 cm-1 for Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 triads. Interestingly, the Marcus plot in Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 has provided clear evidence for intramolecular CR located in both the normal and inverted regions of the Marcus parabola. 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Most importantly, the lowest lying charge-separated state of all the investigated systems, namely, that of ferrocenium ion (Fc+) and the C60 radical anion (C60 •-) pair in the Fc-ZnP - C 60 triad, has been generated with the highest quantum yields (close to unity) and reveals a lifetime as long as 16 μs. Determination of CS and CR rate constants, together with the one-electron redox potentials of the donor and acceptor moieties in different solvents, has allowed us to examine the driving force dependence (−ΔG 0 ET) of the electron-transfer rate constants (k ET). Hereby, the semilogarithmic plots (i.e., log k ET versus −ΔG 0 ET) lead to the evaluation of the reorganization energy (λ) and the electronic coupling matrix element (V) in light of the Marcus theory of electron-transfer reactions:  λ = 0.66 eV and V = 3.9 cm-1 for ZnP - C 60 dyadand λ = 1.09 eV and V = 0.019 cm-1 for Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 triads. Interestingly, the Marcus plot in Fc-ZnP - C 60 , Fc-H 2 P - C 60 , and ZnP - H 2 P - C 60 has provided clear evidence for intramolecular CR located in both the normal and inverted regions of the Marcus parabola. The coefficient for the distance dependence of V (damping factor:  βCR = 0.58 Å-1) is deduced which depends primarily on the nature of the bridging molecule.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>11456930</pmid><doi>10.1021/ja003346i</doi><tpages>11</tpages></addata></record>
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title Modulating Charge Separation and Charge Recombination Dynamics in Porphyrin−Fullerene Linked Dyads and Triads:  Marcus-Normal versus Inverted Region
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