| METALS AND METAL MATRIX COMPOSITES |
|
|
|
|
|
| Application and Research Progress of Metal Foils for Lithium-ion Batteries |
| CHEN Shoudong1,2,3,*, ZHA Chenyu1,3, LU Rihuan4
|
1 School of Mechanical Engineering, Tongling University, Tongling 244061,Anhui, China
2 State Key Laboratory of Rolling and Automation, Northeastern University, Shenyang 110819, China
3 Key Laboratory of Construction Hydraulic Robots of Anhui Higher Education Institutes, Tongling University, Tongling 244061, Anhui, China
4 National Engineering Research Center for Equipment and Technology of Cold Rolled Strip, Yanshan University, Qinhuangdao 066004, Hebei, China |
|
|
|
|
Abstract In recent years, lithium-ion batteries (LIBs) have attracted significant attention owing to their advantages such as the ability to conserve energy and reduce emission. Metal foil is the key material in LIBs, while current collectors are the main carrier materials as they can be used as negative or positive electrodes by coating other active substances. High-quality metal foil can improve the charging and discharging efficiency of LIBs, thereby enhancing their performance. This review introduces the research progress in copper foil, aluminum foil, nickel foil, stainless-steel foil and surface treated copper foil and aluminum-foil composite-current collectors in LIBs. Particularly, the effects of the thickness, surface treatment, and mechanical properties of the metal foil on the LIBs are analyzed. In addition, we discuss the future development direction of ultra-thin, ultra-ductile, and high-strength, high-performance metal foils in LIBs.
|
|
Published: 10 December 2023
Online: 2023-12-08
|
|
|
| Fund:National Natural Science Foundation of China (51804219, 52005432, 52204401), the Provincial Natural Science Foundation of Anhui Province (1808085QE161), the Provincial Key Research and Development Project of Anhui Province (202004a05020011), the Excellent Young Talent Program in University of Anhui Province (gxyq2022093), the Excellent Youth Research Project in University of Anhui Province (2022AH030153) and the Key Cultivation Project of Tongling University (2020tlxyxs33). |
|
|
1 Nishi Y. The Chemical Record, 2001, 1(5), 406.
2 Duffner F, Kronemeyer N, Tübke J, et al. Nature Energy, 2021, 6, 123.
3 Masias A, Marcicki J, Paxton W A. ACS Energy Letters. 2021, 6(2), 621.
4 Zhang X H, Li Z, Luo L G, et al. Energy, 2022, 238, 121652.
5 An W L, Gao B, Mei S X, et al. Nature Communications, 2019, 10, 1447.
6 Zhang X,Ju Z Y, Zhu Y, et al. Advanced Energy Materials, 2021, 11, 2000808.
7 Xia H,Xie Q F, Tian Y H, et al. Nano Energy, 2021, 84, 105877.
8 Liu B H,Jia Y K, Yuan C H, et al. Energy Storage Materials, 2020, 24, 85.
9 Wang Q S, Jiang L H, Yu Y, et al. Nano Energy, 2019, 55, 93.
10 Zhang D,Dai A, Fan B F, et al. ACS Applied Materials & Interfaces, 2020, 12, 31542.
11 Wakihara M. Materials Science and Engineering R, 2001, 33(4), 109.
12 He Y Q, Yuan X, Zhang G W, et al. Science of the Total Environment, 2021, 766, 142382.
13 Shim H C, Van Tran C, Hyun S, et al. Applied Surface Science, 2021, 564, 150416.
14 Wang Z D,Shan Z Q, Tian J H, et al. Journal of Materials Science, 2017, 52(10), 6020.
15 Yue Y,Liang H. Small Methods, 2018, 2, 1800056.
16 Chen J C M,Yang J H, Cheng M M C. Journal of Power Sources, 2019, 430, 169.
17 Jia Y F, Shang Y M, Wang L, et al. Advanced Materials Industry, 2016(7), 35 (in Chinese).
贾亚峰, 尚玉明, 王莉,等. 新材料产业, 2016(7), 35.
18 Hanf L,Diehl M, Kemper L S, et al. Electrophoresis, 2020, 41, 1568.
19 Li Q S, Sun X F, Zhao W Q, et al. Advanced Engineering Materials, 2020, 22(12), 2000710.
20 Xu L, An C, Huang G P. Electronics Quality, 2021(11), 114 (in Chinese).
徐龙, 安聪, 黄国平.电子质量, 2021(11), 114.
21 Zhao L Y. Nonferrous Metals Processing, 2008, 37(1), 8 (in Chinese).
赵玲艳. 有色金属加工, 2008, 37(1), 8.
22 Niu H X. Chinese Journal of Rare Metals, 2005, 29(6), 898 (in Chinese).
牛慧贤. 稀有金属, 2005, 29(6), 898.
23 Woo T G, Park I S, Seol K W. Electronic Materials Letters, 2013, 9(3), 341.
24 Jiang P, Yu Y D. The Chinese Journal of Nonferrous Metals, 2012, 22(12), 3504 (in Chinese).
江鹏, 于彦东.中国有色金属学报, 2012, 22(12), 3504.
25 Chen K F, Song S Y, Xue D F. CrystEngComm, 2013, 15(1), 144.
26 Zhang N X, Zheng Y J, Trifonova A, et al. Journal of Applied Electrochemistry, 2017, 47(7), 829.
27 Hu X R, Wang H Z. Electroplating & Finishing, 2019, 38(4), 153 (in Chinese).
胡旭日, 王海振.电镀与涂饰, 2019, 38(4), 153.
28 Lu W. Chinese Journal of Power Sources, 2018, 42(11), 1608 (in Chinese).
卢苇.电源技术, 2018, 42(11), 1608.
29 Deng G F, He G R, Huang J Q, et al. Nonferrous Metals (Extractive Me-tallurgy), 2014(2), 50 (in Chinese).
邓庚凤, 何桂荣, 黄崛起, 等. 有色金属(冶炼部分), 2014(2), 50.
30 He T S, Fan B F, Peng X L, et al. Shandong Industrial Technology, 2020(6), 124 (in Chinese).
何铁帅, 樊斌锋, 彭肖林,等. 山东工业技术, 2020(6), 124.
31 Chen J Q, Wang X G, Gao H T, et al. Surface and Coatings Technology, 2021, 410, 126881.
32 Chen J Q, Zhao Y, Gao H T, et al. Surface and Coatings Technology, 2021, 421, 127369.
33 Chen S D, Lu R H, Sun J, et al. The Chinese Journal of Nonferrous Me-tals, 2018, 28(11), 2233 (in Chinese).
陈守东, 卢日环, 孙建,等. 中国有色金属学报, 2018, 28(11), 2233.
34 Chen S D, Lu R H, Sun J, et al. Materials Science and Technology, 2018, 26(4), 88 (in Chinese).
陈守东, 卢日环, 孙建,等. 材料科学与工艺, 2018, 26(4), 88.
35 Chen S D, Lu R H, Chen Z P, et al. Materials Reports, 2021, 35(4), 4170 (in Chinese).
陈守东, 卢日环, 陈子潘,等. 材料导报, 2021, 35(4), 4170.
36 Chen S D, Lu R H, Sun J, et al. The Chinese Journal of Nonferrous Me-tals, 2021, 31(2), 353 (in Chinese).
陈守东, 卢日环, 孙建,等. 中国有色金属学报, 2021, 31(2), 353.
37 Yin X Q,Peng L J, Kayani S, et al. Rare Metals, 2016, 35(12), 909.
38 Fang J. On the copper foil and direct rolling copper strip with electrodeposited copper plate. Master's Thesis, Lanzhou University of Technology, China, 2018 (in Chinese).
方军. 铜箔及电解铜板直接轧制铜带的研究. 硕士学位论文, 兰州理工大学, 2018.
39 Deng K. Nonferrous Metals Processing, 2021, 50(6), 8 (in Chinese).
邓可.有色金属加工, 2021, 50(6), 8.
40 Leng D G.In: 2021 China Copper Clad Panel Industry High-level Forum. Xining, China, 2021, pp. 150 (in Chinese).
冷大光. 2021年中国覆铜板行业高层论坛, 西宁, 2021, pp. 150.
41 Wu Y L. Scientific & Technology Book Review, 2014(3), 8 (in Chinese).
吴永礼. 国外科技新书评介, 2014(3), 8.
42 Ni J F, Zhou H H, Chen J T, et al. Battery Bimonthly, 2005, 35(2), 128 (in Chinese).
倪江锋, 周恒辉, 陈继涛,等. 电池, 2005, 35(2), 128.
43 Mei M, Xiang Q X, Zhu Q F, et al. Battery Bimonthly, 2018, 48(5), 338 (in Chinese).
梅铭, 向黔新, 祝巧凤,等. 电池, 2018, 48(5), 338.
44 Tian J T. Shanghai Nonferrous Metals, 2014, 35(4), 170 (in Chinese).
田军涛.上海有色金属, 2014, 35(4), 170.
45 He X Z, Hu Y, Deng Z D, et al. Chinese Journal of Power Sources, 2018, 42(6), 803 (in Chinese).
何湘柱, 胡燚, 邓忠德,等. 电源技术, 2018, 42(6), 803.
46 Nakanishi S, Suzuki T, Cui Q, et al. Transactions of Nonferrous Metals Society of China, 2014, 24(7), 2314.
47 He H W, Zhou H S, Pan D Y. Battery Bimonthly, 2014, 44(1), 31 (in Chinese).
何捍卫, 周海生, 潘登宇.电池, 2014, 44(1), 31.
48 Xia X F, Gu Y Y, Xu S A. Applied Surface Science, 2017, 419, 447.
49 Wang S X, Yang G J. Aluminium Fabrication, 2014(3), 53 (in Chinese).
王世鑫, 杨高洁.铝加工, 2014(3), 53.
50 Liu S, Hou H Y, Hu W, et al. Bulletin of the Chinese Ceramic Society, 2015, 34(9), 2562 (in Chinese).
刘松, 侯宏英, 胡文, 等.硅酸盐通报, 2015, 34(9), 2562.
51 Wang W, Li P. Nonferrous Metals Processing, 2021, 50(5), 1 (in Chinese).
王伟, 李鹏.有色金属加工, 2021, 50(5), 1.
52 Huang X H, Wu J B, Lin Y, et al. Materials Letters, 2016, 175, 199.
53 Varghese B, Reddy M V, Zhu Y W, et al. Chemistry of Materials, 2008, 20(10), 3360.
54 Wang C, Wang D L, Wang Q M, et al. Chinese Journal of Inorganic Chemistry, 2010, 26(5), 757 (in Chinese).
王崇,王殿龙,王秋明,等. 无机化学学报, 2010, 26(5), 757.
55 Masarapu C, Subramanian V, Zhu H W, et al. Advanced Functional Materials, 2009, 19(7), 1008.
56 Zhang P, Guo Z P, Kang S G, et al. Journal of Power Sources, 2009, 189, 566.
57 Park J, Yoo H, Choi J. Journal of Power Sources, 2019, 431, 25.
58 Chen J Q, Hu X L, Gao H T, et al. Journal of Materials Science & Technology, 2022, 99(4), 9.
59 Wang N, Yang Q, Cui S, et al. Materials for Mechanical Engineering, 2017, 41(11), 23 (in Chinese).
王娜, 杨琪, 崔帅,等. 机械工程材料, 2017, 41(11), 23.
60 Li Q Y, Yang Q, Zhao Y H. Journal of Electrochemistry, 2018, 24(2), 160 (in Chinese).
李全一, 杨琪, 赵艳红.电化学, 2018, 24(2), 160.
61 Wang W H, Peng Q, Dai Y Q, et al. Computational Materials Science, 2016, 117, 406.
62 Xiao Z E, Chen J, Liu J, et al. Journal of Power Sources, 2019, 438, 226973.
63 Yang F M, Jiao Q F, Wu W, et al. Chemical Industry and Engineering Progress, 2019, 38(10), 4639 (in Chinese).
杨泛明, 焦奇方, 伍伟, 等. 化工进展, 2019, 38(10), 4639.
64 Li T, Bo H, Cao H W, et al. International Journal of Electrochemical Science, 2017, 12, 3099.
65 Doberdò I, Löffler N, Laszczynski N, et al. Journal of Power Sources, 2014, 248, 1000.
66 Jeong S, Bresser D, Buchholz D, et al. Journal of Power Sources, 2013, 235, 220. |
|
|
|
渝公网安备50019002502923号 © Editorial Office of Materials Reports.
2023, Vol. 37 
