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"Conductive agent"

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"Conductive agent"

Effect of Surface Area and Crystallinity of Amorphous Carbon Conductive Agent in SiOx Anode on the Performance of Lithium Ion Battery
Hyoung-kyu Kang, Sung-soo Kim
J Electr Electron Mater 2023;36(1):29-35.   Published online January 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.1.5
Herein we investigated the effect of the conductive agent on the electrochemical performance of the SiOx anode. SiOx anodes have a relatively low volume expansion (~160%) compared to Pure-silicon, but have a problem in that they have a poor electrical conductivity characteristic. In this study, physical and electrochemical measurements were performed using two 0-dimensional amorphous carbon conductive agents with different crystallinity and surface area. The crystal structure of the conductive agents and the local graphitization degree were analyzed through XRD and Raman, and the surface area of the particles was observed through BET. In addition, the electrical performance according to the graphitization degree of the conductive agents was confirmed through a 4-point probe. As a result of the electrochemical cycle and rate performance, it was confirmed that the performance of SiOx using a conductive agent having a low graphitization degree and a high surface area was improved. The results in this study suggest that the graphitization degree and surface area of the amorphous carbon conductive agent may play an important role in the SiOx electrode.
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Electrochemical Properties of SiOx Anodes with Conductive Agents for Li Ion Batteries
Ji-su Yun, Boyun Jang, Sung-soo Kim, Hyang-yeon Kim
J Electr Electron Mater 2019;32(3):179-186.   Published online May 1, 2019
This work investigated the effects of different conductive agents on the electrochemical properties of anodes. SiOx possesses high theoretical capacity and shows excellent cycle performance; however, the low initial coulombic efficiency and poor electrical conductivity limit its applications in real batteries. In this study, electrodes were fabricated using two different conductive agents, and the resulting physical and electrochemical properties were analyzed. SEM observations confirmed the formation of a CNT conductive network throughout the electrodes, while the electrical conductivity contributed to the electrode was confirmed by impedance measurements. Thus, the electrode fabricated with the CNT conductive agent showed greater capacity and superior cycle performance than did the electrode fabricated using the DB conductive agent.
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