Efficient H 2 O 2 electrogeneration from 2-electron oxygen reduction reaction (ORR) represents an important challenge for environmental remediation application. H 2 O 2 production is determined by 2-electron ORR as well as H 2 O 2 decomposition. In this work, a novel strategy based on the systematical investigation on H 2 O 2 decomposition pathways was reported, presenting a drastically improved bulk H 2 O 2 concentration. Results showed that bulk phase disproportion, cathodic reduction, and anodic oxidation all contributed to H 2 O 2 depletion. To decrease the extent of H 2 O 2 cathodic reduction, the pulsed current was applied and proved to be highly effective to lower the extent of H 2 O 2 electroreduction. A systematic study of various pulsed current parameters showed that H 2 O 2 concentration was significantly enhanced by 61.6% under pulsed current of "2s ON + 2s OFF" than constant current. A mechanism was proposed that under pulsed current, less H 2 O 2 molecules were electroreduced when they diffused from the porous cathode to the bulk electrolyte. Further results demonstrated that a proper pulse frequency was necessary to achieve a higher H 2 O 2 production. Finally, this strategy was applied to Electro-Fenton (EF) process with ibuprofen as model pollutant. 75.0% and 34.1% ibuprofen were removed under pulsed and constant current at 10 min, respectively. The result was in consistent with the higher H 2 O 2 and •OH production in EF under pulsed current. This work poses a potential approach to drastically enhance H 2 O 2 production for improved EF performance on organic pollutants degradation without making any changes to the system except for power mode.
Mixed polymeric micelles by combination of two or more dissimilar polymers is a potential strategy to achieve multiple stimuli-response for anti-cancer drug delivery. However, their drug loading co-micellization behavior and...
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