Your search keyword '"Yeba Yan"' showing total 2 results

1. Efficient Ni2V2O7 catalyst for high-performance Li–S batteries

Author

Hengxue Zhou, Jialiang Wang, Yeba Yan, Yue Fang, Yi Long, Bo Liang, Yingbang Yao, Shengguo Lu, and Tao Tao

Subjects

Ni2V2O7, Li–S batteries, Catalyst, Adsorption, Chemistry, QD1-999, Physics, QC1-999

Abstract

Although Li–S batteries have a high theoretical capacity, their application are significantly hindered by the complex shuttle effect of polysulfides. To address the issues, in this paper, Ni2V2O7 prepared by a simple method is proposed as an efficient catalyst for S cathodes. Ni2V2O7 composed of Ni–O octahedra and V–O tetrahedra has a specific electronic structure. The Ni and V atoms interacted, enabling a fast kinetics of polysulfide redox. Moreover, Ni2V2O7 contains metal sites (Ni and V) and oxygen vacancies, providing a high adsorption capacity and abundant active sites for polysulfide redox. Therefore, Li–S batteries consisting of Ni2V2O7-based cathodes exhibit an excellent cycling stability with a capacity of 1061 mAh g−1 and capacity retention of 87.6% after 150 cycles at 0.2 C. Moreover, at 1 C rate, the batteries exhibit a capacity of 706 mAh g−1 after 300 cycles with a minimal capacity decay of only 0.08% per cycle.

Published

2024

2. Efficient Ni2 V2 O7 catalyst for high-performance Li-S batteries.

Author

Hengxue Zhou, Jialiang Wang, Yeba Yan, Yue Fang, Yi Long, Bo Liang, Yingbang Yao, Shengguo Lu, and Tao Tao

Subjects

ADSORPTION capacity, ELECTRONIC structure, TETRAHEDRA, OCTAHEDRA, LITHIUM sulfur batteries, POLYSULFIDES

Abstract

Although Li-S batteries have a high theoretical capacity, their application are significantly hindered by the complex shuttle effect of polysulfides. To address the issues, in this paper, Ni² V2 O7 prepared by a simple method is proposed as an efficient catalyst for S cathodes. Ni² V2 O7 composed of Ni-O octahedra and V-O tetrahedra has a specific electronic structure. The Ni and V atoms interacted, enabling a fast kinetics of polysulfide redox. Moreover, Ni² V2 O7 contains metal sites (Ni and V) and oxygen vacancies, providing a high adsorption capacity and abundant active sites for polysulfide redox. Therefore, Li-S batteries consisting of Ni² V2 O7 -based cathodes exhibit an excellent cycling stability with a capacity of 1061 mAh g-1 and capacity retention of 87.6% after 150 cycles at 0.2 C. Moreover, at 1 C rate, the batteries exhibit a capacity of 706 mAh g-1 after 300 cycles with a minimal capacity decay of only 0.08% per cycle. [ABSTRACT FROM AUTHOR]

Published

2024