Kyoung-Woong Kim scite author profile

Single-stranded DNA aptamers were generated from a random library to remove arsenic from Vietnamese groundwater. On the basis of significant arsenic contamination levels, three areas in Ha Nam province (Vinh Tru, Bo De, and Hoa Hau) and five areas near the Mekong River Delta (MR1-5) were selected as study areas. The aptamers were in vitro selected using an arsenic aptamer affinity column created by immobilizing arsenic on Affi-gel 10 resin. Quantitative analyses of the aptamer candidates Ars-1 to Ars-8 by surface plasmon resonance (SPR) revealed the Ars-3 aptamer to have the highest affinity to arsenate [(As(V)] and arsenite [As(III)] with a dissociation constant (K(d)) of 4.95 +/- 0.31 and 7.05 +/- 0.91 nM, respectively. The specific affinity interactions of the Ars-3 aptamer to arsenic were verified against other heavy metals. After obtaining successful removal results with a laboratory-prepared aqueous arsenic solution, Ars-3 was applied for removal of any arsenic present in the groundwater samples collected from the studied areas in Vietnam. Field results were also successful: various arsenic concentrations ranging from 28.1 to 739.2 microg/L were completely removed after 5 min of incubation with the arsenic-binding aptamer Ars-3.

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Enhanced biodegradation of polycyclic aromatic hydrocarbons using nonionic surfactants in soil slurry

Kim¹,

Park²,

Kim³

2001

Applied Geochemistry

164

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Health risk assessment of inorganic arsenic intake of Cambodia residents through groundwater drinking pathway

Sthiannopkao²,

et al. 2010

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Stabilization of Available Arsenic in Highly Contaminated Mine Tailings Using Iron

Kim

Davis

Kim

2002

Environ. Sci. Technol.

168

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To evaluate the stabilization of available As in contaminated tailings from two abandoned metal mines of South Korea (the Myoungbong and Daduck Mines, 6670 and 56,600 mg/kg total As, respectively), characteristics of the tailings were investigated, and the tailings were treated through precipitation of amorphous iron compounds. Steep decreasing trends of extractable (5% NaOCl) As with increasing initial Fe(III) additions were observed in both treated tailings. In general, the treated tailings had the lowest extractable As concentration at pH 6. Available As, defined as the sum of As concentrations for the first four steps of a sequential extraction, was reduced from 2090 to 428 mg/kg (80% reduction) in the Myoungbong tailings and from 1320 to 395 mg/kg (70% reduction) in the Daduck tailings. As levels in the treated tailings decreased even more after a 1-month dormant period. Adsorption/coprecipitation tests performed with mixed As(III) and Fe(III) solutions demonstrated dramatically increased As sequestration via interaction with amorphous iron compounds with increasing pH. The bulk of the As appeared to be affiliated with stable Fe precipitates.

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Kyoung-Woong Kim

Mapping of heavy metal pollution in stream sediments using combined geochemistry, field spectroscopy, and hyperspectral remote sensing: A case study of the Rodalquilar mining area, SE Spain

The relationship of climatic and hydrological parameters to surface water quality in the lower Mekong River

Reduction and adsorption mechanisms of selenate by zero-valent iron and related iron corrosion

Competitive adsorption characteristics of Co2+, Ni2+, and Cr3+ by IRN-77 cation exchange resin in synthesized wastewater

Arsenic Removal from Vietnamese Groundwater Using the Arsenic-Binding DNA Aptamer

Enhanced biodegradation of polycyclic aromatic hydrocarbons using nonionic surfactants in soil slurry

Health risk assessment of inorganic arsenic intake of Cambodia residents through groundwater drinking pathway

Stabilization of Available Arsenic in Highly Contaminated Mine Tailings Using Iron

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