Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries
Although C/SiOx (0 < x ≤ 2) composites are considered promising candidates as next-generation anode materials, their lower initial Coulombic efficiency and poor cycling stability seriously limit their commercial applications. In this study, a smooth porous Al2O3 protective layer containing pure A...
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sg-ntu-dr.10356-1511612021-06-09T05:59:43Z Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries Cui, Jinlong Yang, Jiachao Man, Jianzong Li, Shaohui Yin, Jinpeng Ma, Litong He, Wenxiu Sun, Juncai Hu, Jiangliang School of Materials Science and Engineering Engineering::Materials Li-ion Batteries Anode Although C/SiOx (0 < x ≤ 2) composites are considered promising candidates as next-generation anode materials, their lower initial Coulombic efficiency and poor cycling stability seriously limit their commercial applications. In this study, a smooth porous Al2O3 protective layer containing pure Al is introduced onto the surfaces of porous C/SiO2 composites and the inside walls of their pores to prepare Al-doped porous C/SiO2 composites via a high-temperature solid-state method. This porous Al/Al2O3 two-phase network, ∼4 nm in thickness, is effective in obstructing the formation of a thick solid-electrolyte interface film and the dissolution of electrode materials by HF during cycling, thus significantly heightening the initial Coulombic efficiency and cycling stability of the porous C/SiO2 electrode. The pure Al nanoparticles in this Al/Al2O3 nanonetwork also enhance the electronic conductivity of the Al2O3 protective layer. When used as anode materials for Li-ion batteries, the resulting composites deliver a reversible specific capacity of 1385 mAh/g at a current density of 0.1 A/g, with an improved initial Coulombic efficiency of 80.47%, compared to that of porous C/SiO2 (41.90%). Even at 1.6 A/g, the specific capacity is also maintained at 583.1 mAh/g with a capacity loss of only 4.08% after 1200 cycles. Financial support from the National Natural Science Foundation of China (No. 51479019, 21766025 and 21766024) are gratefully acknowledged. 2021-06-09T05:59:43Z 2021-06-09T05:59:43Z 2019 Journal Article Cui, J., Yang, J., Man, J., Li, S., Yin, J., Ma, L., He, W., Sun, J. & Hu, J. (2019). Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries. Electrochimica Acta, 300, 470-481. https://dx.doi.org/10.1016/j.electacta.2019.01.121 0013-4686 https://hdl.handle.net/10356/151161 10.1016/j.electacta.2019.01.121 2-s2.0-85061328270 300 470 481 en Electrochimica Acta © 2019 Elsevier Ltd. All rights reserved. |
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Engineering::Materials Li-ion Batteries Anode Cui, Jinlong Yang, Jiachao Man, Jianzong Li, Shaohui Yin, Jinpeng Ma, Litong He, Wenxiu Sun, Juncai Hu, Jiangliang Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries |
| description |
Although C/SiOx (0 < x ≤ 2) composites are considered promising candidates as next-generation anode materials, their lower initial Coulombic efficiency and poor cycling stability seriously limit their commercial applications. In this study, a smooth porous Al2O3 protective layer containing pure Al is introduced onto the surfaces of porous C/SiO2 composites and the inside walls of their pores to prepare Al-doped porous C/SiO2 composites via a high-temperature solid-state method. This porous Al/Al2O3 two-phase network, ∼4 nm in thickness, is effective in obstructing the formation of a thick solid-electrolyte interface film and the dissolution of electrode materials by HF during cycling, thus significantly heightening the initial Coulombic efficiency and cycling stability of the porous C/SiO2 electrode. The pure Al nanoparticles in this Al/Al2O3 nanonetwork also enhance the electronic conductivity of the Al2O3 protective layer. When used as anode materials for Li-ion batteries, the resulting composites deliver a reversible specific capacity of 1385 mAh/g at a current density of 0.1 A/g, with an improved initial Coulombic efficiency of 80.47%, compared to that of porous C/SiO2 (41.90%). Even at 1.6 A/g, the specific capacity is also maintained at 583.1 mAh/g with a capacity loss of only 4.08% after 1200 cycles. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Cui, Jinlong Yang, Jiachao Man, Jianzong Li, Shaohui Yin, Jinpeng Ma, Litong He, Wenxiu Sun, Juncai Hu, Jiangliang |
| format |
Article |
| author |
Cui, Jinlong Yang, Jiachao Man, Jianzong Li, Shaohui Yin, Jinpeng Ma, Litong He, Wenxiu Sun, Juncai Hu, Jiangliang |
| author_sort |
Cui, Jinlong |
| title |
Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries |
| title_short |
Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries |
| title_full |
Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries |
| title_fullStr |
Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries |
| title_full_unstemmed |
Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/SiO2 as anode for Li-ion batteries |
| title_sort |
porous al/al2o3 two-phase nanonetwork to improve electrochemical properties of porous c/sio2 as anode for li-ion batteries |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151161 |
| _version_ |
1702431235666608128 |