Preparation and Electrochemical Performance of Ti2Nb10O29/Ag Composite as Anode Materials for Lithium Ion Batteries

[Display omitted] In lithium ion batteries anode material is very crucial. Exploring the high-performance anode materials remains a great challenge. Here, Ti2Nb10O29/Ag composite was obtained. Electrochemical measurements demonstrate that Ti2Nb10O29/Ag composite shows good electrochemical performanc...

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Veröffentlicht in:	Electrochimica acta 2017-11, Vol.253, p.396-402
Hauptverfasser:	Mao, Wutao, Liu, Kecheng, Guo, Ge, Liu, Guangyin, Bao, Keyan, Guo, Jiali, Hu, Min, Wang, Weibo, Li, Beibei, Zhang, Kailong, Qian, Yitai
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Sprache:	eng
Schlagworte:	Anode material Anodes Batteries Conductivity Electrochemical analysis Electrochemical property Electrode materials Ions Lithium Lithium ion battery Lithium-ion batteries Rechargeable batteries Silver Ti2Nb10O29
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container_title	Electrochimica acta
container_volume	253
creator	Mao, Wutao Liu, Kecheng Guo, Ge Liu, Guangyin Bao, Keyan Guo, Jiali Hu, Min Wang, Weibo Li, Beibei Zhang, Kailong Qian, Yitai
description	[Display omitted] In lithium ion batteries anode material is very crucial. Exploring the high-performance anode materials remains a great challenge. Here, Ti2Nb10O29/Ag composite was obtained. Electrochemical measurements demonstrate that Ti2Nb10O29/Ag composite shows good electrochemical performance than pure Ti2Nb10O29, mostly due to enhanced electronic conductivity after Ag-coating. The specific capacities of Ti2Nb10O29/Ag composite can be as high as 253 and 173mAhg−1 at 1 and 10C, respectively, and the specific capacity is 132mAhg−1 at 20C. Moreover, the Ti2Nb10O29/Ag composite exhibited excellent cyclic stability, even after 500 cycles, its specific capacity at 10C still stabilized at a large value of 142mAhg−1, which was in sharp contrast to the corresponding values of pure Ti2Nb10O29 (68mAhg−1). The high electrochemical performance demonstrated that Ti2Nb10O29/Ag composite is highly promising anode materials for Li-ion batteries.
doi_str_mv	10.1016/j.electacta.2017.09.072
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Exploring the high-performance anode materials remains a great challenge. Here, Ti2Nb10O29/Ag composite was obtained. Electrochemical measurements demonstrate that Ti2Nb10O29/Ag composite shows good electrochemical performance than pure Ti2Nb10O29, mostly due to enhanced electronic conductivity after Ag-coating. The specific capacities of Ti2Nb10O29/Ag composite can be as high as 253 and 173mAhg−1 at 1 and 10C, respectively, and the specific capacity is 132mAhg−1 at 20C. Moreover, the Ti2Nb10O29/Ag composite exhibited excellent cyclic stability, even after 500 cycles, its specific capacity at 10C still stabilized at a large value of 142mAhg−1, which was in sharp contrast to the corresponding values of pure Ti2Nb10O29 (68mAhg−1). 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Exploring the high-performance anode materials remains a great challenge. Here, Ti2Nb10O29/Ag composite was obtained. Electrochemical measurements demonstrate that Ti2Nb10O29/Ag composite shows good electrochemical performance than pure Ti2Nb10O29, mostly due to enhanced electronic conductivity after Ag-coating. The specific capacities of Ti2Nb10O29/Ag composite can be as high as 253 and 173mAhg−1 at 1 and 10C, respectively, and the specific capacity is 132mAhg−1 at 20C. Moreover, the Ti2Nb10O29/Ag composite exhibited excellent cyclic stability, even after 500 cycles, its specific capacity at 10C still stabilized at a large value of 142mAhg−1, which was in sharp contrast to the corresponding values of pure Ti2Nb10O29 (68mAhg−1). 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Exploring the high-performance anode materials remains a great challenge. Here, Ti2Nb10O29/Ag composite was obtained. Electrochemical measurements demonstrate that Ti2Nb10O29/Ag composite shows good electrochemical performance than pure Ti2Nb10O29, mostly due to enhanced electronic conductivity after Ag-coating. The specific capacities of Ti2Nb10O29/Ag composite can be as high as 253 and 173mAhg−1 at 1 and 10C, respectively, and the specific capacity is 132mAhg−1 at 20C. Moreover, the Ti2Nb10O29/Ag composite exhibited excellent cyclic stability, even after 500 cycles, its specific capacity at 10C still stabilized at a large value of 142mAhg−1, which was in sharp contrast to the corresponding values of pure Ti2Nb10O29 (68mAhg−1). 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subjects	Anode material Anodes Batteries Conductivity Electrochemical analysis Electrochemical property Electrode materials Ions Lithium Lithium ion battery Lithium-ion batteries Rechargeable batteries Silver Ti2Nb10O29
title	Preparation and Electrochemical Performance of Ti2Nb10O29/Ag Composite as Anode Materials for Lithium Ion Batteries
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