Abstract

Intersystem crossing (ISC) plays a key role in the photolysis processes of oxetanes formed by benzophenone (BP)-like and thymine structures. In this work, we systematically explored the photophysical processes of oxetanes and ring-splitting products and investigated the effect of substituents on the repair mechanisms of oxetanes. The regioselectivity of oxetanes (head-to-head, HH and head-to-tail, HT) and the electron-donating and electron-withdrawing substituents, including CH3, OCH3 and NO2, were considered. It was found that the substituents influence the ISC rates of these compounds more by changing their spin-orbit coupling (SOC) coefficients rather than energy gaps. The SOC coefficients of HH-oxetanes are more affected by these groups than HT-oxetanes and products, and they have greater ISC rates on the whole. Besides, the insertion of substituents can alter the radiative and nonradiative decay rates, thereby transforming the photoinduced cycloreversion mechanisms of oxetanes. The ring-splitting reactions of non-substituted oxetanes could occur via two pathways of singlet and triplet manifolds. Furthermore, oxetanes with NO2 at the X site have the largest ISC rates but hardly undergo repair processes, while the introduction of electron-donating substituents can effectively promote the repair of oxetanes. The singlet ring-splitting reactions of HH-oxetanes are more inclined to occur after introducing CH3 and OCH3 at two sites. However, HT-oxeatnes with CH3 are more likely to undergo triplet repair processes and OCH3-substituted structures tend to originate cycloreversion in the singlet manifolds. Moreover, the introduction of CH3 and OCH3 at the Y site rather than the X site can more significantly accelerate the repair processes of HH-oxetanes. Contrarily, HT-oxetanes with electron-donating groups at the X site exhibit faster repair rates than those at the Y site. We hope this work can provide valuable insights into BP-like drugs and photosensitive DNA repair.

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