Jingshuai Yang scite author profile

In this paper we report on a kinetics study of the discharge process and its relationship to the charge overpotential in a Li-O2 cell for large surface area cathode material. The kinetics study reveals evidence for a first-order disproportionation reaction during discharge from an oxygen-rich Li2O2 component with superoxide-like character to a Li2O2 component. The oxygen-rich superoxide-like component has a much smaller potential during charge (3.2-3.5 V) than the Li2O2 component (∼4.2 V). The formation of the superoxide-like component is likely due to the porosity of the activated carbon used in the Li-O2 cell cathode that provides a good environment for growth during discharge. The discharge product containing these two components is characterized by toroids, which are assemblies of nanoparticles. The morphologic growth and decomposition process of the toroids during the reversible discharge/charge process was observed by scanning electron microscopy and is consistent with the presence of the two components in the discharge product. The results of this study provide new insight into how growth conditions control the nature of discharge product, which can be used to achieve improved performance in Li-O2 cell.

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Evidence for lithium superoxide-like species in the discharge product of a Li–O2 battery

Yang

Zhai

Wang

et al. 2013

Phys. Chem. Chem. Phys.

197

239

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We report on the use of a petroleum coke-based activated carbon (AC) with very high surface area for a Li-O(2) battery cathode without the use of any additional metal catalysts. Electrochemical measurement in a tetra(ethylene) glycol dimethyl ether-lithium triflate (TEGDME-LiCF(3)SO(3)) electrolyte results in two voltage plateaus during charging at 3.2-3.5 and 4.2-4.3 V versus Li(+)/Li. Herein we present evidence from Raman and magnetic measurements that the lower plateau corresponds to a form of lithium peroxide with superoxide-like properties characterized by a low temperature magnetic phase transition and a high O-O stretching frequency (1125 cm(-1)). The magnetic phase transition and the high O-O stretching frequency disappear when charged to above 3.7 V. Theoretical calculations indicate that a surface superoxide structure on lithium peroxide clusters and some lithium peroxide surfaces have an unpaired electron and a high O-O stretching frequency that help explain the observations. These results provide evidence that the form of the lithium peroxide discharge product is important to obtaining a low charge overpotential, and thus improving the round-trip efficiency between discharge and charge.

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Nanosilicon‐Coated Graphene Granules as Anodes for Li‐Ion Batteries

Evanoff

Magasinski

Yang

et al. 2011

Advanced Energy Materials

259

189

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Uniform deposition of Si and C layers on high surface area graphene produces granules with specific surface area of ∼5 m2·g−1. The anode composed of the nanocomposite particles exhibited specific capacity in excess of 2000 mAh·g−1 at a current density of 140 mA·g−1 and excellent stability for 150 cycles. The low surface area of the composite resulted in an average Coulombic efficiency in excess of 99%.

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SiOx-based anodes for secondary lithium batteries

et al. 2002

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Aligned carbon nanotubes with built-in FeN₄active sites for electrocatalytic reduction of oxygen

et al. 2008

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Jingshuai Yang

Disproportionation in Li–O₂ Batteries Based on a Large Surface Area Carbon Cathode

Evidence for lithium superoxide-like species in the discharge product of a Li–O2 battery

Nanosilicon‐Coated Graphene Granules as Anodes for Li‐Ion Batteries

SiOx-based anodes for secondary lithium batteries

Aligned carbon nanotubes with built-in FeN₄active sites for electrocatalytic reduction of oxygen

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About

Jingshuai Yang

Disproportionation in Li–O2 Batteries Based on a Large Surface Area Carbon Cathode

Evidence for lithium superoxide-like species in the discharge product of a Li–O2 battery

Nanosilicon‐Coated Graphene Granules as Anodes for Li‐Ion Batteries

SiOx-based anodes for secondary lithium batteries

Aligned carbon nanotubes with built-in FeN4active sites for electrocatalytic reduction of oxygen

Contact Info

Product

Resources

About

Disproportionation in Li–O₂ Batteries Based on a Large Surface Area Carbon Cathode

Aligned carbon nanotubes with built-in FeN₄active sites for electrocatalytic reduction of oxygen