SEQUENTIAL ELECTRON-TRANSFER LEADING TO LONG-LIVED CHARGE SEPARATED STATE IN A PORPHYRIN OXOCHLORIN PYROMELLITDIMIDE TRIAD

被引:43
作者
OSUKA, A
MARUMO, S
MARUYAMA, K
MATAGA, N
TANAKA, Y
TANIGUCHI, S
OKADA, T
YAMAZAKI, I
NISHIMURA, Y
机构
[1] OSAKA UNIV, FAC ENGN SCI, DEPT CHEM, TOYONAKA, OSAKA 560, JAPAN
[2] HOKKAIDO UNIV, FAC ENGN, DEPT CHEM PROC ENGN, SAPPORO, HOKKAIDO 060, JAPAN
来源
BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN | 1995年 / 68卷 / 01期
关键词
D O I
10.1246/bcsj.68.262
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
The synthesis and excited-state dynamics are described for fixed-distance porphyrin-oxo-chlorin-pyromellitdimide triads (P-C-Im) and related reference compounds. In zinc-oxochlorin-pyromellit-dimide (ZnP-Im), the (1)(ZnC)* is quenched by the attached Im through intramolecular charge separation (CS) in benzene, THF, and DMF, while the (1)(H2C)* in the corresponding free base is not significantly quenched by the Im even in polar DMF. In the steady-state fluorescence emission spectra, only the emission from the (1)(C)* is commonly observed, indicating an efficient intramolecular singlet-singlet excitation energy transfer from P to C. Of these, the fluorescence intensities of the (1)(H2C)* in ZnP-H2C and ZnP-H2C-Im are significantly reduced in polar DMF solution and this is attributed to the intramolecular CS that gives (ZnP)(+)-(H2C)(-)-Im and (ZnP)(+)-(H2C)(-), respectively. The (ZnP)(+)-(H2C)(-)-Im ion pair is clearly shown, by picosecond absorption spectroscopy, to be converted into a secondary, longer-lived charge separated state (ZnP)(+)-H2C-(Im)(-) via charge-shift reaction in competition with wasteful charge recombination to the ground state. The (ZnP)(+)-H2C-(Im)(-) state is formed in 0.09 quantum yield from ZnP-(1)(H2C)*-Im and has a life time of 0.24 mu s in DMF.
引用
收藏
页码:262 / 276
页数:15
相关论文
共 66 条
  • [21] DIRECT OBSERVATION OF ELECTRON CATION GEMINATE PAIR PRODUCED BY PICOSECOND LASER-PULSE EXCITATION IN NONPOLAR SOLVENT - EXCITATION WAVELENGTH DEPENDENCE OF THE ELECTRON THERMALIZATION LENGTH
    HIRATA, Y
    MATAGA, N
    [J]. JOURNAL OF PHYSICAL CHEMISTRY, 1991, 95 (04) : 1640 - 1644
  • [22] HOLTZAPFEL W, 1989, CHEM PHYS LETT, V160, P1
  • [23] INHOFFEN HH, 1969, LIEBIGS ANN CHEM, V725, P167
  • [24] PHOTOCHEMICAL ELECTRON-TRANSFER IN CHLOROPHYLL PORPHYRIN QUINONE TRIADS - THE ROLE OF THE PORPHYRIN-BRIDGING MOLECULE
    JOHNSON, DG
    NIEMCZYK, MP
    MINSEK, DW
    WIEDERRECHT, GP
    SVEC, WA
    GAINES, GL
    WASIELEWSKI, MR
    [J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1993, 115 (13) : 5692 - 5701
  • [25] PRIMARY PHOTOCHEMISTRY OF REACTION CENTERS FROM THE PHOTOSYNTHETIC PURPLE BACTERIA
    KIRMAIER, C
    HOLTEN, D
    [J]. PHOTOSYNTHESIS RESEARCH, 1987, 13 (03) : 225 - 260
  • [26] A CHEMICAL APPROACH TOWARD PHOTOSYNTHETIC REACTION CENTER
    MARUYAMA, K
    OSUKA, A
    [J]. PURE AND APPLIED CHEMISTRY, 1990, 62 (08) : 1511 - 1520
  • [27] PICOSECOND DYNAMICS OF PHOTOCHEMICAL ELECTRON-TRANSFER IN PORPHYRIN-QUINONE INTRAMOLECULAR EXCIPLEX SYSTEMS
    MATAGA, N
    KAREN, A
    OKADA, T
    NISHITANI, S
    KURATA, N
    SAKATA, Y
    MISUMI, S
    [J]. JOURNAL OF PHYSICAL CHEMISTRY, 1984, 88 (22) : 5138 - 5141
  • [28] ROLE OF SOLVATION IN THE ULTRAFAST NONRADIATIVE DEACTIVATION OF PORPHYRIN QUINONE EXCIPLEX SYSTEMS - PICOSECOND LASER PHOTOLYSIS STUDIES
    MATAGA, N
    KAREN, A
    OKADA, T
    NISHITANI, S
    KURATA, N
    SAKATA, Y
    MISUMI, S
    [J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1984, 106 (08) : 2442 - 2443
  • [29] CHARGE-TRANSFER RATES IN SYMMETRIC AND SYMMETRY-DISTURBED DERIVATIVES OF 9,9'-BIANTHRYL
    MATAGA, N
    YAO, H
    OKADA, T
    RETTIG, W
    [J]. JOURNAL OF PHYSICAL CHEMISTRY, 1989, 93 (09) : 3383 - 3386
  • [30] THE BELL-SHAPED ENERGY-GAP DEPENDENCE OF THE CHARGE RECOMBINATION REACTION OF GEMINATE RADICAL ION-PAIRS PRODUCED BY FLUORESCENCE QUENCHING REACTION IN ACETONITRILE SOLUTION
    MATAGA, N
    ASAHI, T
    KANDA, Y
    OKADA, T
    KAKITANI, T
    [J]. CHEMICAL PHYSICS, 1988, 127 (1-3) : 249 - 261
1234567