Tanielian C
Biochimie. 1986 Jun;68(6):797-806. doi: 10.1016/s0300-9084(86)80095-5.
This paper discusses the mechanism of photooxygenation reactions sensitized by dyes, such as: rose bengal, methylene blue, tetraphenylporphin and chlorophyll a. First it is shown more particularly that: the quantum yields of singlet oxygen O2(1 delta g) production gamma delta, and of intersystem crossing singlet S1-triplet T1, gamma is, are not always equal and that the possibilities gamma delta greater than or less than gamma is may occur or are observed; the processes S1 + O2(3 sigma)----T1 + O2(3 sigma) and T1 + O2(3 sigma)----S0 + O2(1 delta g) are mainly if not fully responsible for the quenching of the singlet and triplet excited states of the sensitizer by oxygen. Thereafter, clear indication is given of the considerable complication of the photooxygenation which may arise from particular properties of the investigated substrate A (or of other compounds present in the reaction medium) and which may result in a decrease of the oxygenation quantum yield phi O2. It is shown that this lowering of phi O2 is due to that of gamma delta and/or of phi A, (the probability that O2(1 delta g) yields an oxygenation product AO2) since phi O2 = gamma delta phi A. The latter effect can be induced by the quenching of singlet oxygen by the dye, a process which is quite general and which must be always taken into account in kinetic studies.
本文讨论了由染料敏化的光氧化反应机制,例如:孟加拉玫瑰红、亚甲蓝、四苯基卟啉和叶绿素a。首先特别指出:单线态氧O₂(¹Δg)产生的量子产率γδ以及系间窜越单线态S₁ - 三线态T₁的量子产率γi并不总是相等,γδ大于或小于γi的情况可能会出现或被观察到;过程S₁ + O₂(³Σ)→T₁ + O₂(³Σ)和T₁ + O₂(³Σ)→S₀ + O₂(¹Δg)主要(如果不是完全)导致了敏化剂的单线态和三线态激发态被氧猝灭。此后,明确指出了光氧化反应可能因被研究底物A(或反应介质中存在的其他化合物)的特殊性质而出现的相当大的复杂性,这可能导致氧化量子产率φO₂降低。结果表明,φO₂的这种降低是由于γδ和/或φA(O₂(¹Δg)产生氧化产物AO₂的概率)的降低,因为φO₂ = γδφA。后一种效应可由染料对单线态氧的猝灭引起,这是一个相当普遍的过程,在动力学研究中必须始终予以考虑。
