Ball-milling synthesis and electrochemical study of lithium (transition) metal nitrides

Ke Wang; Jun Yang; Jing Ying Xie; Yu Liu; Bao Feng Wang

Ball-milling synthesis and electrochemical study of lithium (transition) metal nitrides

Ke Wang, Jun Yang, Jing Ying Xie, Yu Liu, Bao Feng Wang

Chinese Academy of Sciences

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

Lithium (transition) metal nitrides were synthesized by high-energy ball-milling technique. The obtained samples exhibit high electrochemical activity and reversibility. The average capacity of Li_2.6Co_0.4N samples is ca 880 mAh·g^-1 within the first 10 cycles. Li_2.6Co_0.2Cu_0.2N sample has a capacity about 750 mAh · g^-1 after the first several cycles. 80% of its second cycle capacity can be retained at the 45th cycle. Li_2.6Co_0.2Fe_0.2N sample is a mixture of two or more phases including Li_2.6Co_0.4N. It has a capacity about 560 mAh · g^-1 at the 40th cycle, 82% of its second cycle capacity. Good cycling performance suggests that these compounds could be promising anode materials for lithium ion batteries.

Original language	English
Pages (from-to)	843-848
Number of pages	6
Journal	Wuji Cailiao Xuebao/Journal of Inorganic Materials
Volume	18
Issue number	4
State	Published - Jul 2003
Externally published	Yes

Keywords

Anode material
Ball-milling
Lithium metal nitride
Lithium-ion batteries

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Cite this

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title = "Ball-milling synthesis and electrochemical study of lithium (transition) metal nitrides",

abstract = "Lithium (transition) metal nitrides were synthesized by high-energy ball-milling technique. The obtained samples exhibit high electrochemical activity and reversibility. The average capacity of Li2.6Co0.4N samples is ca 880 mAh·g-1 within the first 10 cycles. Li2.6Co0.2Cu0.2N sample has a capacity about 750 mAh · g-1 after the first several cycles. 80% of its second cycle capacity can be retained at the 45th cycle. Li2.6Co0.2Fe0.2N sample is a mixture of two or more phases including Li2.6Co0.4N. It has a capacity about 560 mAh · g-1 at the 40th cycle, 82% of its second cycle capacity. Good cycling performance suggests that these compounds could be promising anode materials for lithium ion batteries.",

keywords = "Anode material, Ball-milling, Lithium metal nitride, Lithium-ion batteries",

author = "Ke Wang and Jun Yang and Xie, {Jing Ying} and Yu Liu and Wang, {Bao Feng}",

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journal = "Wuji Cailiao Xuebao/Journal of Inorganic Materials",

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TY - JOUR

T1 - Ball-milling synthesis and electrochemical study of lithium (transition) metal nitrides

AU - Wang, Ke

AU - Yang, Jun

AU - Xie, Jing Ying

AU - Liu, Yu

AU - Wang, Bao Feng

PY - 2003/7

Y1 - 2003/7

N2 - Lithium (transition) metal nitrides were synthesized by high-energy ball-milling technique. The obtained samples exhibit high electrochemical activity and reversibility. The average capacity of Li2.6Co0.4N samples is ca 880 mAh·g-1 within the first 10 cycles. Li2.6Co0.2Cu0.2N sample has a capacity about 750 mAh · g-1 after the first several cycles. 80% of its second cycle capacity can be retained at the 45th cycle. Li2.6Co0.2Fe0.2N sample is a mixture of two or more phases including Li2.6Co0.4N. It has a capacity about 560 mAh · g-1 at the 40th cycle, 82% of its second cycle capacity. Good cycling performance suggests that these compounds could be promising anode materials for lithium ion batteries.

AB - Lithium (transition) metal nitrides were synthesized by high-energy ball-milling technique. The obtained samples exhibit high electrochemical activity and reversibility. The average capacity of Li2.6Co0.4N samples is ca 880 mAh·g-1 within the first 10 cycles. Li2.6Co0.2Cu0.2N sample has a capacity about 750 mAh · g-1 after the first several cycles. 80% of its second cycle capacity can be retained at the 45th cycle. Li2.6Co0.2Fe0.2N sample is a mixture of two or more phases including Li2.6Co0.4N. It has a capacity about 560 mAh · g-1 at the 40th cycle, 82% of its second cycle capacity. Good cycling performance suggests that these compounds could be promising anode materials for lithium ion batteries.

KW - Anode material

KW - Ball-milling

KW - Lithium metal nitride

KW - Lithium-ion batteries

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M3 - 文章

AN - SCOPUS:0345547628

SN - 1000-324X

VL - 18

SP - 843

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JO - Wuji Cailiao Xuebao/Journal of Inorganic Materials

JF - Wuji Cailiao Xuebao/Journal of Inorganic Materials

IS - 4

ER -

Ball-milling synthesis and electrochemical study of lithium (transition) metal nitrides

Abstract

Keywords

UN SDGs

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