Photochemical Reaction Between 1,2‐Naphthoquinone and Adenine in Binary Water‐Acetonitrile Solutions

The photochemical reaction between 1,2‐naphthoquinone (NQ ) and adenine was investigated using nanosecond time‐resolved laser flash photolysis. With photolysis at 355 nm, the lowest triplet state T₁ of NQ was produced via intersystem crossing from its singlet excited state. The triplet‐triplet absorption of the state contributes three bands of transient spectra at 374, 596 and 650 nm, respectively, in pure acetonitrile and binary water‐acetonitrile solutions. In the presence of adenine, the observation of ⁺ (at 363 nm) and radical (at 343 and 485 nm) indicates a multistep mechanism of electron transfer process followed by a proton transfer between ³NQ * and adenine. By fitting with the Stern‐Volmer relationship, the quenching rate constant k _q of ³NQ * by adenine in binary water‐acetonitrile solutions (4/1, volume ratio, v/v) is determined as 1.66 × 10⁹ m ⁻¹ s⁻¹. Additionally, no spectral evidence confirms the existence of electron transfer between ³NQ * with thymine, cytosine and uracil.