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Article Abstract
Singlet oxygen (O), which is difficult to generate, plays an important role in chemosynthesis, biomedicine and environment. Molecular oxygen (O) is a green oxidant to produce O cost-effectively. However, O activation is difficult due to its spin-forbidden nature. Moreover, the main products of O activation are basically hydrogen peroxide (HO) and hydroxyl radical (•OH), but rarely O. Herein, we innovatively realize the selective generation of O via O activation by a facile molybdenum (Mo)/Cu system. In this system, Mo firstly reduces Cu in solution to low-valence Cu/Cu on its surface. Cu/Cu activates O to generate superoxide radical (O). Importantly, O can be captured immediately and oxidized to O by surface-bound Mo rather than reduced to HO. As a result, the Mo/Cu system can selectively produce O. Under air and O conditions, the degradation efficiency of ibuprofen by Mo/Cu system is 67.2 % and 76.6 %, respectively. The degradation efficiencies of bisphenol A, rhodamine B and furfuryl alcohol are 77.1 %, 87.7 % and 91.1 %, respectively. The dosages of Mo and Cu are 0.4 g/L and 3 mM, respectively, and the reaction time is 2 h. Interestingly, the activity of Mo decreased by only 4.2 % after 4 cycles. Therefore, this study provides a green pathway to selectively generate O for advanced oxidation processes.
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| http://dx.doi.org/10.1016/j.jhazmat.2023.131210 | DOI Listing |
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