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Thermodynamic Modulation by Micro-Nanobubbles Stimulate Hydroxyl Radical Production during O<sub>2</sub> Reduction by Aqueous Fe(II) for Sustainable Water Remediation

Xiaoyi Huang, Chaomeng Dai, Xueji You, Jixiang Li, Yalei Zhang

2025Environmental Science & Technology8 citationsDOI

Abstract

Ferrous iron (Fe(II)) species are prevalent in reductive subsurface environments, where some active Fe(II) species can generate hydroxyl radical (·OH) during oxidation under O 2 perturbation, facilitating pollutant attenuation. However, aqueous Fe(II), a common form of ferrous iron, can be rapidly oxidized but scarcely contributes to ·OH production. Herein, this study proposes a thermodynamic control strategy by introducing micro-nanobubbles (MNBs) into an aqueous Fe(II)/O 2 system to stimulate its potential. Experimental results indicate that MNBs alter the electron transfer pathway from aqueous Fe(II) to O 2, shifting the predominant mechanism from a one-electron transfer pathway to a two-electron transfer pathway; this can reduce energy loss and improve the overall electron utilization efficiency. Under optimal conditions, ·OH production and pollutant degradation reached 20 μM and 15%, respectively, compared to almost 0 in the system without MNBs. Thermodynamic analysis reveals that MNBs lower the oxidation–reduction potential (ORP) of the system and reduce the Gibbs free energy of key reaction steps, enabling efficient ·OH production. The aqueous Fe(II)/MNBs/O 2 system demonstrates a broad applicability for the degradation of various pollutants with removal rates ranging from 25% to 36%, highlighting its potential as a promising approach for green and sustainable groundwater remediation.

Topics & Concepts

Aqueous solutionEnvironmental remediationReduction (mathematics)Sustainable productionChemistryProduction (economics)Hydroxyl radicalWater chemistryEnvironmental chemistryRadicalOrganic chemistryContaminationEcologyGeometryMathematicsBiologyMacroeconomicsEconomicsMinerals Flotation and Separation TechniquesGeochemistry and Elemental AnalysisAdvanced oxidation water treatment