FEMTOSECOND PICOSECOND LASER PHOTOLYSIS STUDIES ON THE MECHANISMS OF FLUORESCENCE QUENCHING INDUCED BY HYDROGEN-BONDING INTERACTIONS - 1-PYRENOL-PYRIDINE SYSTEMS

被引：64

作者：

MIYASAKA, H ^{[1
]}

TABATA, A ^{[1
]}

OJIMA, S ^{[1
]}

IKEDA, N ^{[1
]}

MATAGA, N ^{[1
]}

机构：

[1] OSAKA UNIV, FAC ENGN SCI, DEPT CHEM, TOYONAKA, OSAKA 560, JAPAN

来源：

JOURNAL OF PHYSICAL CHEMISTRY | 1993年 / 97卷 / 31期

关键词：

D O I：

10.1021/j100133a017

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

The mechanisms of strong fluorescence quenching of 1-pyrenol (PyOH) caused by hydrogen-bonding interaction with pyridine (P) and various methyl-substituted pyridines (MeP's) have been investigated by means of fluorescence and femtosecond-picosecond laser spectroscopic measurements and compared with those of 1-aminopyrene (AP)-P and-MeP systems studied previously.7,10,11 Femtosecond-picosecond time-resolved transient absorption spectral measurements on PyOH-P and -MeP systems in hexane show rapid decay of locally excited (LE) state (D*-H...A) without formation of detectable intermediate state, in contrast to the case of AP-P and -MeP systems where rapid establishment of equilibrium between LE and electron transfer (ET), (D+-H...A-), states occurs in the excited state. On the basis of the fact that the decay time of the LE state of PyOH-P and -MeP systems depends on the free energy gap for the LE --> ET reaction, it has been concluded that the decay of the LE state is due to the reaction LE --> ET, which is realized even in a nonpolar solvent assisted by hydrogen-bonding interactions and by a slight shift of the D-H proton toward A, further facilitating ET. Moreover, immediately after ET a large scale and ultrafast proton shift takes place which induces a large destabilization of the ground state (GS) leading to an ultrafast nonradiative ET --> GS ''switchover'', contrary to the case of AP-P and -MeP systems where the proton shift in the excited state remains moderate.

引用

页码：8222 / 8228

页数：7

共 41 条

[1] FEMTOSECOND PICOSECOND LASER PHOTOLYSIS STUDIES ON THE DYNAMICS OF EXCITED CHARGE-TRANSFER COMPLEXES - AROMATIC HYDROCARBON-ACID ANHYDRIDE, HYDROCARBON-TETRACYANOETHYLENE, AND HYDROCARBON-TETRACYANOQUINODIMETHANE SYSTEMS IN ACETONITRILE SOLUTIONS [J].

ASAHI, T ;

MATAGA, N .

JOURNAL OF PHYSICAL CHEMISTRY, 1991, 95 (05) :1956-1963

[2] CHARGE RECOMBINATION PROCESS OF ION-PAIR STATE PRODUCED BY EXCITATION OF CHARGE-TRANSFER COMPLEX IN ACETONITRILE SOLUTION - ESSENTIALLY DIFFERENT CHARACTER OF ITS ENERGY-GAP DEPENDENCE FROM THAT OF GEMINATE ION-PAIR FORMED BY ENCOUNTER BETWEEN FLUORESCER AND QUENCHER [J].

ASAHI, T ;

MATAGA, N .

JOURNAL OF PHYSICAL CHEMISTRY, 1989, 93 (18) :6575-6578

[3]

CHEN ECM, 1974, ELECTROCHEMICAL DA 1, V1

[4] DEACTIVATION OF EXCITED 2-NAPHTHYLAMINE DUE TO HYDROGEN-BONDING INTERACTION WITH PYRIDINES - FLUORESCENCE AND PICOSECOND LASER PHOTOLYSIS STUDIES [J].

IKEDA, N ;

OKADA, T ;

MATAGA, N .

BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1981, 54 (04) :1025-1030

[5] FLUORESCENCE AND PICOSECOND LASER PHOTOLYSIS STUDIES ON THE DEACTIVATION PROCESSES OF EXCITED HYDROGEN-BONDING SYSTEMS [J].

IKEDA, N ;

OKADA, T ;

MATAGA, N .

CHEMICAL PHYSICS LETTERS, 1980, 69 (02) :251-254

[6] PICOSECOND LASER PHOTOLYSIS STUDIES OF DEACTIVATION PROCESSES OF EXCITED HYDROGEN-BONDING COMPLEXES .3. DETECTION OF THE NON-FLUORESCENT CHARGE-TRANSFER STATE IN THE EXCITED 1-AMINOPYRENE-PYRIDINE HYDROGEN-BONDED PAIR AND RELATED SYSTEMS [J].

IKEDA, N ;

MIYASAKA, H ;

OKADA, T ;

MATAGA, N .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1983, 105 (16) :5206-5211

[7] INTERACTION BETWEEN EXCITED BETA-NAPHTHOL AND PYRIDINE - HYDROGEN-BOND FORMATION IN S] AND H-TRANSFER REACTION IN T [J].

KIKUCHI, K ;

WATARAI, H ;

KOIZUMI, M .

BULLETIN OF THE CHEMICAL SOCIETY OF JAPAN, 1973, 46 (03) :749-754

[8] CHARGE-TRANSFER IN DIBENZOCARBAZOLE-PYRIDINE HYDROGEN-BONDED COMPLEXES - THE ROLE OF THE GEOMETRY OF THE COMPLEX [J].

MARTIN, M ;

MIYASAKA, H ;

KAREN, A ;

MATAGA, N .

JOURNAL OF PHYSICAL CHEMISTRY, 1985, 89 (01) :182-185

[9] FLUORESCENCE QUENCHING OF CARBAZOLE BY PYRIDINE AND SUBSTITUTED PYRIDINES - RADIATIONLESS PROCESSES IN CARBAZOLE-AMINE HYDROGEN-BONDED COMPLEX [J].

MARTIN, MM ;

WARE, WR .

JOURNAL OF PHYSICAL CHEMISTRY, 1978, 82 (26) :2770-2776

[10] PICOSECOND LASER PHOTOLYSIS STUDIES OF DEACTIVATION PROCESSES OF EXCITED HYDROGEN-BONDING COMPLEXES .2. DIBENZOCARBAZOLE PYRIDINE SYSTEMS [J].

MARTIN, MM ;

IKEDA, N ;

OKADA, T ;

MATAGA, N .

JOURNAL OF PHYSICAL CHEMISTRY, 1982, 86 (21) :4148-4156

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