Sang Bok scite author profile

Lithium metal has shown a lot of promise for use as an anode material in rechargeable batteries owing to its high theoretical capacity. However, it does not meet the cycle life and safety requirements of rechargeable batteries owing to electrolyte decomposition and dendrite formation on the surfaces of the lithium anodes during electrochemical cycling. Here, we propose a novel electrolyte system that is relatively stable against lithium metal and mitigates dendritic growth. Systematic design methods that combined simulations, model-based experiments, and in situ analyses were employed to design the system. The reduction potential of the solvent, the size of the salt anions, and the viscosity of the electrolyte were found to be critical parameters determining the rate of dendritic growth. A lithium metal anode in contact with the designed electrolyte exhibited remarkable cyclability (more than 100 cycles) at a high areal capacity of 12 mAh cm−2.

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Electrochemical properties of manganese oxide coated onto carbon nanotubes for energy-storage applications

Bok

Nam

Yoon

et al. 2008

Journal of Power Sources

285

116

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Fabrication and electrochemical properties of carbon nanotube film electrodes

Kim

Nam

Bok

et al. 2006

Carbon

151

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Effect of porosity on electrochemical properties of carbon materials as cathode for lithium-oxygen battery

Bok

Lee

Roev

et al. 2013

Journal of Power Sources

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Sang Bok

Synthesis and characterization of manganese dioxide spontaneously coated on carbon nanotubes

A Highly Reversible Lithium Metal Anode

Electrochemical properties of manganese oxide coated onto carbon nanotubes for energy-storage applications

Fabrication and electrochemical properties of carbon nanotube film electrodes

Effect of porosity on electrochemical properties of carbon materials as cathode for lithium-oxygen battery

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