Hyun-Joo Bae scite author profile

We report molecular evidence that ammonia-oxidizing archaea (AOA) occur in activated sludge bioreactors used to remove ammonia from wastewater. Using PCR primers targeting archaeal ammonia monooxygenase subunit A (amoA) genes, we retrieved and compared 75 sequences from five wastewater treatment plants operating with low dissolved oxygen levels and long retention times. All of these sequences showed similarity to sequences previously found in soil and sediments, and they were distributed primarily in four major phylogenetic clusters. One of these clusters contained virtually identical amoA sequences obtained from all five activated sludge samples (from Oregon, Wisconsin, Pennsylvania, and New Jersey) and accounted for 67% of all the sequences, suggesting that this AOA phylotype may be widespread in nitrifying bioreactors.

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Exploring the Role of Persulfate in the Activation Process: Radical Precursor Versus Electron Acceptor

Yun

Yoo

Bae

et al. 2017

Environ. Sci. Technol.

314

114

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This study elucidates the mechanism behind persulfate activation by exploring the role of various oxyanions (e.g., peroxymonosulfate, periodate, and peracetate) in two activation systems utilizing iron nanoparticle (nFe) as the reducing agent and single-wall carbon nanotubes (CNTs) as electron transfer mediators. Since the tested oxyanions serve as both electron acceptors and radical precursors in most cases, oxidative degradation of organics was achievable through one-electron reduction of oxyanions on nFe (leading to radical-induced oxidation) and electron transfer mediation from organics to oxyanions on CNTs (leading to oxidative decomposition involving no radical formation). A distinction between degradative reaction mechanisms of the nFe/oxyanion and CNT/oxyanion systems was made in terms of the oxyanion consumption efficacy, radical scavenging effect, and EPR spectral analysis. Statistical study of substrate-specificity and product distribution implied that the reaction route induced on nFe varies depending on the oxyanion (i.e., oxyanion-derived radical), whereas the similar reaction pathway initiates organic oxidation in the CNT/oxyanion system irrespective of the oxyanion type. Chronoamperometric measurements further confirmed electron transfer from organics to oxyanions in the presence of CNTs, which was not observed when applying nFe instead.

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Surface-loaded metal nanoparticles for peroxymonosulfate activation: Efficiency and mechanism reconnaissance

Ahn

Bae

Kim

et al. 2019

Applied Catalysis B: Environmental

307

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Identification of novel chemoattractant peptides for human leukocytes

Bae

Kim

et al. 2001

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Tetracycline degradation by ozonation in the aqueous phase: Proposed degradation intermediates and pathway

Khan

Bae

Jung

2010

Journal of Hazardous Materials

319

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Hyun-Joo Bae

Occurrence of Ammonia-Oxidizing Archaea in Wastewater Treatment Plant Bioreactors

Exploring the Role of Persulfate in the Activation Process: Radical Precursor Versus Electron Acceptor

Surface-loaded metal nanoparticles for peroxymonosulfate activation: Efficiency and mechanism reconnaissance

Identification of novel chemoattractant peptides for human leukocytes

Tetracycline degradation by ozonation in the aqueous phase: Proposed degradation intermediates and pathway

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