This study investigates the reactivity of constitutional isomers of acylated N-hydroxybenzotriazole (HOBt) in solid-state photocycloaddition reactions. To understand the difference in solid-state reactivity of isomers, we have synthesized two isomeric N- and O-acyl derivatives of HOBt via acylation with anthracene-9-carboxylic acid. Both O-anthr-9-oyl oxy-benzotriazole 1 and its N-acyl isomer 2 crystallized with the face-to-face arrangement of their anthracene units, with a separation of 3.8 Å between them, satisfying Schmidt’s criteria, suggesting that they can undergo topochemical [4+4] photocycloaddition reaction. Upon irradiation using blue light (456 nm), the isomer 2 underwent a quantitative [4+4] cycloaddition reaction yielding the dimer D2. However, isomer 1 did not undergo [4+4] cycloaddition; instead, it underwent a photochemical [4+2] cycloaddition with molecular oxygen, eventually yielding anthraquinone (AQ). The dimer D2 underwent a retro-cycloaddition reaction to revert back to the isomer 2. While isomers give the same product in solution-state reactions, our study establishes that isomers can react differently in the solid state and can give different products.
