I. I. Dilung scite author profile

The quenching of porphyrin triplets by electron acceptors occurs via the formation of triplet exciplexes. The majority of the long-lived triplet exciplexes ( T L-s) are formed by quenchers having E;'$ = -0.5 V. On passing to either weaker or stronger electron acceptors, the lifetime of the triplet exciplexes decreases. The number of quenchers which are capable of forming long .lived triplex exciplexes depends on the nature of the porphyrin. The magnesium monopyridinate-rneso-tetraphenylporphyrin complex (the most electron-donating among those studied) forms the greatest number of long-lived exciplexes. Triplet exciplex formation is accompanied by a quencher-induded deactivation of the triplets. Both processes involve some common steps. The reaction of an excited molecule with the acceptor produces an ion-radical pair as the initial product. The recombination of the latter gives triplet exciplexes and molecules in the ground state. The triplet exciplexes can be deactivated through intersystem crossing or viu the formation of an ion-radical pair followed by recombination. The mechanisms for these processes are discussed.

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Influence of polarity of medium on fluorescence characteristics of alkylaminobenzophenones

Kotsyuba¹,

Granchak²,

Dilung³

et al. 1997

Theor Exp Chem

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I. I. Dilung

An anomalous heavy atom effect in phenazine and its halogeno derivatives

Remote electron transfer in the quenching of porphyrin fluorescence by oxidants

New intermediates in the reaction of benzophenone photoreduction by hydrogen donors

Lifetime of the triplet exciplexes of porphyrins with electron acceptors in toluene solution

Influence of polarity of medium on fluorescence characteristics of alkylaminobenzophenones

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