Aeran Kim scite author profile

Aeran Kim

2Publications

9Citation Statements Received

23Citation Statements Given

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Affiliations

Korea Institute of Energy Research, Korea University of Science and Technology

Publications

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Preparation and Characteristics of SiOx Coated Carbon Nanotubes with High Surface Area

et al. 2012

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An easy method to synthesize SiOx coated carbon nanotubes (SiOx-CNT) through thermal decomposition of polycarbomethylsilane adsorbed on the surface of CNTs is reported. Physical properties of SiOx-CNT samples depending on various Si contents and synthesis conditions are examined by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), nitrogen isotherm, scanning electron microscope (SEM), and transmission electron microscope (TEM). Morphology of the SiOx-CNT appears to be perfectly identical to that of the pristine CNT. It is confirmed that SiOx is formed in a thin layer of approximately 1 nm thickness over the surface of CNTs. The specific surface area is significantly increased by the coating, because thin layer of SiOx is highly porous. The surface properties such as porosity and thickness of SiOx layers are found to be controlled by SiOx contents and heat treatment conditions. The preparation method in this study is to provide useful nano-hybrid composite materials with multi-functional surface properties.

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Designing Partially Coated Ultrathin Hydrophobic Silica Layer for Highly Conductive and Durable Carbon Nanofiber as Cathode Carbon Support in Polymer Electrolyte Fuel Cells

et al. 2014

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For the last decade, the polymer electrolyte fuel cells (PEFCs) have been recognized as a strong alternative power source instead of the gasoline-powered internal combustion engine due to their high energy conversion efficiency and environmental benignity. Among a number of composition factors, the development of cathode electrode with affordable durability is arguably the most important consideration for maintaining long-term automotive applications because their performances are typically limited by permanently damaged carbon supports and platinum (Pt) loss during abnormal and transient conditions such as very fast potential transient condition and frequent start-up/shutdown procedures. In the carbon corrosion procedures, it is important to have an appropriate strategy that provides means to significantly reduce the carbon corrosion as follows: i) there are fewer water molecules in the vicinity of carbon supports to decrease the carbon corrosion and Pt oxidation formation according to mechanism of electrochemical carbon corrosion; and ii) the spill-over of ∙OH radical from Pt particles should be minimized by avoiding the direct contact between oxidized Pt and carbon surface. Herein, we reported a new strategy to functionalize the graphitized platelet carbon nanofiber (PCNF) surface, which was developed to make an unevenly-coated ultrathin hydrophobic silica layer on PCNF. Subsequently, Pt nanoparticles would be deposited into an empty space between an unevenly-coated silica layers. According to the experimental observation related to the electrochemical reactions, the initial performance of membrane electrode assembly (MEA) based on PCNF composite with 5 wt% silica layer exhibited similar to that for virgin PCNF due to similar HFR values. To the best of our knowledge, its initial cell performance is one of the best among the PCNF composites with silica layer reported in the literature. In addition, the PCNF composite with silica layer showed superior long-term durability compared to the virgin PCNF due to enhanced durability of carbon support and Pt nanoparticles.

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Aeran Kim

Preparation and Characteristics of SiOx Coated Carbon Nanotubes with High Surface Area

Designing Partially Coated Ultrathin Hydrophobic Silica Layer for Highly Conductive and Durable Carbon Nanofiber as Cathode Carbon Support in Polymer Electrolyte Fuel Cells

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