Lin Yi-ying scite author profile

Pyrite catalyzes oxidation of various organic contaminants by dissolved oxygen (DO) under acidic conditions; however, the catalytic mechanism under alkaline conditions is still not clear. In this study, we observe increased oxidation rates of aniline with increasing pHs (7.0–11.0). Electron paramagnetic resonance (EPR) analysis and quenching experiments rule out contributions of •OH, O2•−, 1O2 and Fe (IV) to aniline oxidation and suggest that the Fe (III)–OOH peroxo and/or H2O2 are the primary oxidative species in the oxidation of aniline at pH 11.0. In addition, 200 mg L−1 H2O2 does not apparently increase the oxidation rate of aniline, which also rules out the predominant contribution of the produced H2O2 to aniline oxidation. We therefore suggest that the Fe (III)–OOH peroxo is indeed the primary oxidative species in the pyrite–DO system under alkaline conditions. Analyses of solid total organic carbon (TOC), gas chromatography–mass spectrometry and Fourier‐transform infrared spectroscopy further reveal that more than 83.3% aniline has been polymerized to polyaniline, instead of being mineralized into CO2 and H2O, indicating that H‐abstraction from aniline by the Fe (III)–OOH peroxo is an important step in the oxidation of aniline under alkaline conditions. This study provides new insight into the oxidative species in the pyrite–DO system, and opens a new door for organic degradations under alkaline conditions.

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Surface Adsorption of Iron Oxide Minerals for Phenol and Dissolved Organic Matter

Yi-ying

et al. 2008

Earth Science Frontiers

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Enhancing the performance of microbial fuel cell using a carbon-fiber-brush air cathode with low-cost mushroom Ganoderma laccase enzyme

Lin

Yi-ying

et al. 2018

Journal of the Taiwan Institute of Chemical Engineers

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Lin Yi-ying

Formation of hydroperoxo (–OOH) species on the surface of self-doped Bi_2.15WO₆: reactivity towards As(iii) oxidation

Turning thiophene contaminant into polymers from wastewater by persulfate and CuO

Catalytic cross‐coupling of aniline by pyrite and dissolved oxygen under alkaline conditions

Surface Adsorption of Iron Oxide Minerals for Phenol and Dissolved Organic Matter

Enhancing the performance of microbial fuel cell using a carbon-fiber-brush air cathode with low-cost mushroom Ganoderma laccase enzyme

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Lin Yi-ying

Formation of hydroperoxo (–OOH) species on the surface of self-doped Bi2.15WO6: reactivity towards As(iii) oxidation

Turning thiophene contaminant into polymers from wastewater by persulfate and CuO

Catalytic cross‐coupling of aniline by pyrite and dissolved oxygen under alkaline conditions

Surface Adsorption of Iron Oxide Minerals for Phenol and Dissolved Organic Matter

Enhancing the performance of microbial fuel cell using a carbon-fiber-brush air cathode with low-cost mushroom Ganoderma laccase enzyme

Contact Info

Product

Resources

About

Formation of hydroperoxo (–OOH) species on the surface of self-doped Bi_2.15WO₆: reactivity towards As(iii) oxidation