Carbon intercalated porous NaTi2(PO4)3 spheres as high-rate and ultralong-life anodes for rechargeable sodium-ion batteries

Hongbo Geng; Jun Yang; Hong Yu; Chengchao Li; Xiaochen Dong

doi:10.1039/c7qm00048k

Carbon intercalated porous NaTi₂(PO₄)₃ spheres as high-rate and ultralong-life anodes for rechargeable sodium-ion batteries

Hongbo Geng, Jun Yang, Hong Yu, Chengchao Li, Xiaochen Dong

柔性电子（未来科技）学院|先进材料研究院

科研成果: 期刊稿件 › 文章 › 同行评审

35 引用（Scopus）

摘要

In this manuscript, a carbon intercalated porous NaTi₂(PO₄)₃ (NTP@C) spherical composite was synthesized through a facile hydrolysis reaction combined with a subsequent hydrothermal and annealing process. Benefiting from the unique mesoporous architecture combined with the conductive carbon layer, the NTP@C composite showed excellent electrochemical properties in terms of both stable cycling performance and good rate capabilities. Evaluated as anodes for sodium-ion batteries, the NTP@C composites presented a high reversible specific capacity (around 134 mA h g^-1 at a current rate of 1C) and an excellent cycling performance (about 81 mA h g^-1 at a high current rate of 50C during the 1000th cycle). The remarkable electrochemical performance can be attributed to the rational design of the hybrid structure, which can ensure fast electron and sodium ion transport in the electrode materials.

源语言	英语
页（从-至）	1435-1440
页数	6
期刊	Materials Chemistry Frontiers
卷	1
期	7
DOI	https://doi.org/10.1039/c7qm00048k
出版状态	已出版 - 7月 2017

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abstract = "In this manuscript, a carbon intercalated porous NaTi2(PO4)3 (NTP@C) spherical composite was synthesized through a facile hydrolysis reaction combined with a subsequent hydrothermal and annealing process. Benefiting from the unique mesoporous architecture combined with the conductive carbon layer, the NTP@C composite showed excellent electrochemical properties in terms of both stable cycling performance and good rate capabilities. Evaluated as anodes for sodium-ion batteries, the NTP@C composites presented a high reversible specific capacity (around 134 mA h g-1 at a current rate of 1C) and an excellent cycling performance (about 81 mA h g-1 at a high current rate of 50C during the 1000th cycle). The remarkable electrochemical performance can be attributed to the rational design of the hybrid structure, which can ensure fast electron and sodium ion transport in the electrode materials.",

author = "Hongbo Geng and Jun Yang and Hong Yu and Chengchao Li and Xiaochen Dong",

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AU - Geng, Hongbo

AU - Yang, Jun

AU - Yu, Hong

AU - Li, Chengchao

AU - Dong, Xiaochen

PY - 2017/7

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N2 - In this manuscript, a carbon intercalated porous NaTi2(PO4)3 (NTP@C) spherical composite was synthesized through a facile hydrolysis reaction combined with a subsequent hydrothermal and annealing process. Benefiting from the unique mesoporous architecture combined with the conductive carbon layer, the NTP@C composite showed excellent electrochemical properties in terms of both stable cycling performance and good rate capabilities. Evaluated as anodes for sodium-ion batteries, the NTP@C composites presented a high reversible specific capacity (around 134 mA h g-1 at a current rate of 1C) and an excellent cycling performance (about 81 mA h g-1 at a high current rate of 50C during the 1000th cycle). The remarkable electrochemical performance can be attributed to the rational design of the hybrid structure, which can ensure fast electron and sodium ion transport in the electrode materials.

AB - In this manuscript, a carbon intercalated porous NaTi2(PO4)3 (NTP@C) spherical composite was synthesized through a facile hydrolysis reaction combined with a subsequent hydrothermal and annealing process. Benefiting from the unique mesoporous architecture combined with the conductive carbon layer, the NTP@C composite showed excellent electrochemical properties in terms of both stable cycling performance and good rate capabilities. Evaluated as anodes for sodium-ion batteries, the NTP@C composites presented a high reversible specific capacity (around 134 mA h g-1 at a current rate of 1C) and an excellent cycling performance (about 81 mA h g-1 at a high current rate of 50C during the 1000th cycle). The remarkable electrochemical performance can be attributed to the rational design of the hybrid structure, which can ensure fast electron and sodium ion transport in the electrode materials.

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Carbon intercalated porous NaTi2(PO4)3 spheres as high-rate and ultralong-life anodes for rechargeable sodium-ion batteries

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Carbon intercalated porous NaTi₂(PO₄)₃ spheres as high-rate and ultralong-life anodes for rechargeable sodium-ion batteries