Effects of C60 on the Photochemical Formation of Reactive Oxygen Species from Natural Organic Matter
2016
Yin, Lijuan | Zhou, Huaxi | Lian, Lushi | Yan, Shuwen | Song, Weihua
Buckminsterfullerenes (C₆₀) are widely used nanomaterials that are present in surface water. The combination of C₆₀ and humic acid (HA) generates reactive oxygen species (ROS) under solar irradiation, but this process is not well understood. Thus, the present study focused on the photochemical formation of singlet oxygen (¹O₂), hydroxyl radical (HO•)-like species, superoxide radicals (O₂•–), hydrogen peroxide (H₂O₂), and triplet excited states (³C₆₀*/³HA*) in solutions containing both C₆₀ and HA. The quantum yield coefficients of excited triplet states (fTMP) and apparent quantum yields of ROS were measured and compared to the calculated values, which were based on the conservative mixing model. Although C₆₀ proved to have only a slight impact on the ¹O₂ formation from HA, C₆₀ played a key role in the inhibition of O₂•–. The photochemical formation of H₂O₂ followed the conservative mixing model due to the reaction of C₆₀•– with HO₂•/O₂•–, and the biomolecular reaction rate constant has been measured as (7.4 ± 0.6) × 10⁶ M–¹ s–¹. The apparent fTMP was significantly lower than the calculated value, indicating that the steric effect of HA was significant in the reaction of ³C₆₀* with the TMP probe. In contrast, C₆₀ did not have an effect on the photochemical formation of HO• from HA, suggesting that HO• is elevated from the hydrophilic surface of HA. The aforementioned results may be useful for predicting the photochemical influence of C₆₀ on aqueous environments.
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