Cheng Ai Li scite author profile

Cheng Ai Li

3Publications

7Citation Statements Received

81Citation Statements Given

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Affiliations

Korea Institute of Machinery and Materials

Publications

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Rheological alteration of erythrocytes exposed to carbon nanotubes

Heo

Kim

et al. 2017

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Single-walled carbon nanotubes (SWNTs) have been increasingly used in a variety of biomedical applications, such as in vivo delivery of drugs and tumor imaging. Potential exposure of SWNTs to human red blood cells (RBCs) may cause serious toxicity including alteration of mechanical properties of cells. The present study investigated the cellular response to exposure of SWNTs with measuring rheological characteristics of RBCs, including hemolysis, deformability, aggregation, and morphological changes. RBCs were exposed to two different dispersion-state samples (i.e. individual SWNTs and bundled SWNTs) in chitosan hydroxyphenyl acetamide (CHPA) solutions. The concentrations of SWNTs were carefully chosen to avoid any hemorheological alterations due to hemolysis. Rheological characteristics were measured using microfluidic-laser diffractometry and aggregometry. Our results show that the bundled SWNTs had higher hemolytic activity than did the individual SWNTs. RBC aggregation apparently decreased as the concentration of SWNTs or incubation time increased. Additionally, bundled SWNTs caused significant alterations in the shape and fusion of RBCs. In conclusion, bundled SWNTs were found to be more toxic than individual SWNTs. These results provide important insights into the interactions between RBCs and SWNTs and will facilitate assessment of the risk of nanomaterial toxicity of blood.

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Electrochemical monitoring of colloidal silver nanowires in aqueous samples

Kim

2015

Analyst

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Silver nanowires (NWs) are increasingly utilized in technological materials and consumer products, but an effective analytical technique is not yet available to measure their concentration in the environment. Here, we present an electrochemical method to quantify Ag NWs suspended in aqueous solution. Using linear sweep voltammetry, the Ag NWs are identified by the peak potential while their concentration is revealed by the intensity of the peak current. The peak current varies linearly with the Ag NW concentration with a low detection limit of 3.50 ng mL(-1). This method is also successfully applied to quantify Ag NWs in mixtures with nanoparticles, through their specific oxidation behavior, and in wastewater obtained after the Ag NW film preparation process.

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Membrane-based electrochemical device for monitoring nanowires in aqueous samples

Kim

Park

et al. 2017

Sensors and Actuators B: Chemical

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Cheng Ai Li

Rheological alteration of erythrocytes exposed to carbon nanotubes

Electrochemical monitoring of colloidal silver nanowires in aqueous samples

Membrane-based electrochemical device for monitoring nanowires in aqueous samples

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