Sensitive Gas Chromatography Detection of Nanomolar Hydroxylamine in Environmental Water by Fe(III) Oxidation

Abstract: Nanomolar concentrations of NH2OH in natural water sources were determined using an Fe 3+ oxidation method. A pH of 2.35-2.50 was used, which was adjusted by adding a chloroacetate buffer. Equal amounts (1.0 mL) of the chloroacetate solution and ferric chloride solution were added to the water sample (70 mL) to oxidize NH2OH to N2O. The resulting N2O in the sample water was then quantified by headspace analysis using a gas chromatograph with an electroncapture detector (ECD), where a limit of detection of 0.2 … Show more

“…Generally, abiotic reactions play an essential role in the production of total N 2 O at pH values less than 5. To prevent excessive greenhouse gas emissions, short-cut nitrification reactors usually control pH at near-neutral conditions to reduce the release of N 2 O from abiotic reactions (Hikino et al, 2021).…”

Autotrophic Fe-Driven Biological Nitrogen Removal Technologies for Sustainable Wastewater Treatment

“…Generally, abiotic reactions play an essential role in the production of total N 2 O at pH values less than 5. To prevent excessive greenhouse gas emissions, short-cut nitrification reactors usually control pH at near-neutral conditions to reduce the release of N 2 O from abiotic reactions (Hikino et al, 2021).…”

Autotrophic Fe-Driven Biological Nitrogen Removal Technologies for Sustainable Wastewater Treatment

A simple, rapid and sensitive analytical method for the determination of hydroxylamine in water samples using modified glassy carbon electrode

Development of absorption spectrophotometry of iron(III) in environmental water and sediments using NEDA and its application to the field