Soon-Seok Kim scite author profile

Soon-Seok Kim

5Publications

32Citation Statements Received

86Citation Statements Given

How they've been cited

How they cite others

126

Affiliations

Halla University, Kyung Hee University, Chung Cheong University

Publications

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Characterization of Bottom Ash as an Adsorbent of Lead from Aqueous Solutions

Gorme¹,

Maniquiz²,

Kim³

et al. 2010

Environmental Engineering Research

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This study investigated the potential of using bottom ash to be used as an adsorbent for the removal of lead (Pb) from aqueous solutions. The physical and chemical characteristics of bottom ash were determined, with a series of leaching and adsorption experiments performed to evaluate the suitability of bottom ash as an adsorbent material. Trace elements were present, such as silicon and aluminum, indicating that the material had a good adsorption capacity. All heavy metals leached during the Korea standard leaching test (KSLT) passed the regulatory limits for safe disposal, while batch adsorption experiments showed that bottom ash was capable of adsorbing Pb (experimental q e = 0.05 mg/g), wherein the adsorption rate increased with decreasing particle size. The adsorption data were then fitted to kinetic models, including Lagergren first-order and Pseudo-second order, as well as the Elovich equation, and isotherm models, including the Langmuir, Freundlich and Dubinin-Radushkevich isotherms. The results showed that pseudo-second order kinetics was the most suitable model for describing the kinetic adsorption, while the Freundlich isotherm best represented the equilibrium sorption onto bottom ash. The maximum sorption capacity and energy of adsorption of bottom ash were 0.315 mg/g and 7.01 KJ/mol, respectively.

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Hydra protein reduces the toxicity of Ag–PVP nanoparticles in a 3D A549 cell line

Lee

Yeo

Kim

2019

Mol. Cell. Toxicol.

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A New Scheme for the Location Information Protection in Mobile Communication Environments

Kim

Yeo

Park

et al. 2005

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Reduction in Toxicity of Nano-Ag-Polyvinyl-pyrrolidone Using Hydra Proteins and Peptides during Zebrafish Embryogenesis

2019

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Hydra magnipapillata cells reduce the toxicity of silver nanomaterials to zebrafish (Danio rerio) embryos. In this study, we investigated whether Hydra protein (HP) and Hydra basal disc peptide (Hym176) materials reduce nano-Ag-polyvinylpyrrolidone (N-Ag-PVP) toxicity during embryogenesis of the nanosensitive organism zebrafish. Protein (HP) was extracted from Hydra, and peptide (Hym176) was extracted from the hydra basal disc, which is attractive to nanomaterials and related to the immune system. The experimental conditions were exposure to N-Ag-PVP, HP, N-Ag-PVP+HP, Hym176, or N-Ag-PVP+Hym176 during embryo development. N-Ag-PVP+HP group showed lower toxicity than N-Ag-PVP group. In addition, in the N-Ag-PVP+HP group formed aggregated nanomaterials (≥200 nm size) through electrostatic bonding. In the gene expression profile, HP group differed in gene expression profile compared the other experimental groups and it was no genetic toxicity. HP showed a tendency to reduce side effects and abnormal gene expression produced by N-Ag-PVP with no evidence of inherent toxicity. Considering the potential nanotoxicity effects of released nanomaterials on the ecosystem, the reduction of nanotoxicity observed with HP natural materials should be regarded with great interest in terms of the overall health of the ecosystem.

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Chemical management policies and a distribution model for chemical accidents

Yeo

Han

Kim

et al. 2017

Mol. Cell. Toxicol.

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Soon-Seok Kim

Characterization of Bottom Ash as an Adsorbent of Lead from Aqueous Solutions

Hydra protein reduces the toxicity of Ag–PVP nanoparticles in a 3D A549 cell line

A New Scheme for the Location Information Protection in Mobile Communication Environments

Reduction in Toxicity of Nano-Ag-Polyvinyl-pyrrolidone Using Hydra Proteins and Peptides during Zebrafish Embryogenesis

Chemical management policies and a distribution model for chemical accidents

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