Core–shell-structured Li[(Ni)0.5(Ni0.7Co0.3)0.5]O2 cathode material with high capacity and rate performance for high-energy Li-ion batteries
The poor cycle performance and rate capability of LiNiO 2 limit its practical applications. Improving the rate performance of the core (LiNiO 2 ) using a shell (LiNi 0.7 Co 0.3 O 2 ) to protect it from side reactions with the electrolyte and its unstable structure at high voltages is essential. Elec...
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Published in | Journal of the Korean Physical Society Vol. 83; no. 10; pp. 780 - 787 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Seoul
The Korean Physical Society
01.11.2023
Springer Nature B.V |
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Abstract | The poor cycle performance and rate capability of LiNiO
2
limit its practical applications. Improving the rate performance of the core (LiNiO
2
) using a shell (LiNi
0.7
Co
0.3
O
2
) to protect it from side reactions with the electrolyte and its unstable structure at high voltages is essential. Electrochemical test results showed that the discharge capacity of the core–shell was 152.5 mA h g
−1
(64.9%) at 10 C (1700 mA g
−1
), which indicated a 29.9% improvement in high-rate performance compared to the core with a discharge capacity of 117.4 mA h g
−1
(52.4%). The core–shell showed a high discharge capacity retention rate of 96.0% after five charge and discharge cycles at 10 C. In addition, the charge transfer resistance of the core–shell at 4.5 V after the first cycle was 218.81 Ω, which showed a decrease in resistance of approximately 55% compared to the resistance of the core (395.52 Ω). The electrochemical test results indicated that the shell coating increased the structural stability by inhibiting side reactions with the electrolyte. |
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AbstractList | The poor cycle performance and rate capability of LiNiO2 limit its practical applications. Improving the rate performance of the core (LiNiO2) using a shell (LiNi0.7Co0.3O2) to protect it from side reactions with the electrolyte and its unstable structure at high voltages is essential. Electrochemical test results showed that the discharge capacity of the core–shell was 152.5 mA h g−1 (64.9%) at 10 C (1700 mA g−1), which indicated a 29.9% improvement in high-rate performance compared to the core with a discharge capacity of 117.4 mA h g−1 (52.4%). The core–shell showed a high discharge capacity retention rate of 96.0% after five charge and discharge cycles at 10 C. In addition, the charge transfer resistance of the core–shell at 4.5 V after the first cycle was 218.81 Ω, which showed a decrease in resistance of approximately 55% compared to the resistance of the core (395.52 Ω). The electrochemical test results indicated that the shell coating increased the structural stability by inhibiting side reactions with the electrolyte. The poor cycle performance and rate capability of LiNiO 2 limit its practical applications. Improving the rate performance of the core (LiNiO 2 ) using a shell (LiNi 0.7 Co 0.3 O 2 ) to protect it from side reactions with the electrolyte and its unstable structure at high voltages is essential. Electrochemical test results showed that the discharge capacity of the core–shell was 152.5 mA h g −1 (64.9%) at 10 C (1700 mA g −1 ), which indicated a 29.9% improvement in high-rate performance compared to the core with a discharge capacity of 117.4 mA h g −1 (52.4%). The core–shell showed a high discharge capacity retention rate of 96.0% after five charge and discharge cycles at 10 C. In addition, the charge transfer resistance of the core–shell at 4.5 V after the first cycle was 218.81 Ω, which showed a decrease in resistance of approximately 55% compared to the resistance of the core (395.52 Ω). The electrochemical test results indicated that the shell coating increased the structural stability by inhibiting side reactions with the electrolyte. |
Author | Tran, Thi Bich Thuy Son, Jong-Tae Park, Eui Jeong |
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Keywords | LiNiO Core–shell Side reaction Li-ion battery High-Ni cathode material |
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Snippet | The poor cycle performance and rate capability of LiNiO
2
limit its practical applications. Improving the rate performance of the core (LiNiO
2
) using a shell... The poor cycle performance and rate capability of LiNiO2 limit its practical applications. Improving the rate performance of the core (LiNiO2) using a shell... |
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SubjectTerms | Charge transfer Discharge Electrode materials Electrolytes Lithium-ion batteries Mathematical and Computational Physics Original Paper - Cross-Disciplinary Physics and Related Areas of Science and Technology Particle and Nuclear Physics Physics Physics and Astronomy Rechargeable batteries Structural stability Theoretical |
Title | Core–shell-structured Li[(Ni)0.5(Ni0.7Co0.3)0.5]O2 cathode material with high capacity and rate performance for high-energy Li-ion batteries |
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