Eun Gyoung Bae scite author profile

Gadolinium-doped LiGd x Mn 2−x O 4 was synthesized by a sol-gel method and applied as cathode material in Li ion batteries. Gddoping significantly changed the unit cell parameter and atomic arrangement. With an increase of x, a cell dimension contracts from 8.2419(2) to 8.2375(8) (x = 0.02), 8.2295(3) (x = 0.04), and 8.2120(6) Å (x = 0.08), with concomitant changes in bond length. The LiO 4 tetrahedron expands to facilitate a fast electrochemical process and the MnO 6 octahedron shrinks to provide structural integrity. The former contributes to a better high-rate performance and the latter leads to a variation in the cell dimensions during charge-discharge cycles that is less than that found in LiMn 2 O 4 (structure-stabilization). The strong octahedral framework eventually results in minimized contraction of the unit cell after repeated cycles and in good capacity retention. A less capacity fading of LiGd 0.02 Mn 2.98 O 4 can be correlated to a smaller dimensional variation between charged and discharged states (LiMn 2 O 4 : 8.1366 and 8.0460 Å (two phases, charged) and 8.2419 Å (discharged) vs. LiGd 0.02 Mn 2.98 O 4 : 8.1472 Å (single phase, charged) to 8.2375 Å (discharged)) and, thus, the less unit cell contraction for LiGd 0.02 Mn 2.98 O 4 after repeated cycling (LiMn 2 O 4 : 8.2419 Å to 8.218 Å vs. LiGd 0.02 Mn 2.98 O 4 : 8.2375 Å to 8.229 Å).

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Binder-free Sn/Graphene Nanocomposites Prepared by Electrophoretic Deposition for Anode Materials in Lithium Ion Batteries

Bae¹,

Hwang²,

Pyo

2013

Bulletin of the Korean Chemical Society

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Nanocomposites consisting of Sn nanoparticles and graphene oxide (GO) were electrophoretically deposited onto Cu current collectors that was used for anodes in Li ion batteries (LIBs). In order to optimize the electrochemical performance of nanocomposites as an anode material by controlling the oxygen functionality, the GO was subjected to O 3 treatment prior to electrophoretic deposition (EPD). During thermal reduction of the GO in the nanocomposites, the Sn nanoparticles were reduced in size, along with the formation of SnO and/ or SnO 2 at a small fraction, relying on the oxygen functionalities of the GO. The variation in the duration of time for the O 3 irradiation resulted in a small change in total oxygen content, but in a significantly different fraction of each functional group in the GO, which influenced the Sn nanoparticle size and the amount of SnO (and/or SnO 2 ). As a result, the EPD films prepared with the GO that possessed the least amount of carboxylic groups (made by treating GO in an O 3 environment for 3 h) showed the best performance, when compared with the nanocomposites composed of untreated GO or GO that was O 3 -treated for a duration of less than 3 h.

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Eun Gyoung Bae

Non-crystalline oligopyrene as a cathode material with a high-voltage plateau for sodium ion batteries

Graphene oxide as a corrosion inhibitor for the aluminum current collector in lithium ion batteries

SnO2 nanoparticles confined in a graphene framework for advanced anode materials

Gadolinium-Doped LiMn₂O₄Cathodes in Li Ion Batteries: Understanding the Stabilized Structure and Enhanced Electrochemical Kinetics

Binder-free Sn/Graphene Nanocomposites Prepared by Electrophoretic Deposition for Anode Materials in Lithium Ion Batteries

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Eun Gyoung Bae

Non-crystalline oligopyrene as a cathode material with a high-voltage plateau for sodium ion batteries

Graphene oxide as a corrosion inhibitor for the aluminum current collector in lithium ion batteries

SnO2 nanoparticles confined in a graphene framework for advanced anode materials

Gadolinium-Doped LiMn2O4Cathodes in Li Ion Batteries: Understanding the Stabilized Structure and Enhanced Electrochemical Kinetics

Binder-free Sn/Graphene Nanocomposites Prepared by Electrophoretic Deposition for Anode Materials in Lithium Ion Batteries

Contact Info

Product

Resources

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Gadolinium-Doped LiMn₂O₄Cathodes in Li Ion Batteries: Understanding the Stabilized Structure and Enhanced Electrochemical Kinetics