Journal
JOURNAL OF POWER SOURCES
Volume 551, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jpowsour.2022.232176
Keywords
Thick electrode; Electrode design; Lithium -ion battery; Mechanical stability; Electron -ion transfer; Energy; power density
Funding
- National Natural Science Foundation of China
- Fundamental Research Funds of Zhongyuan University of Technology
- [11772287]
- [U1804126]
- [U21A2077]
- [K2020QN018]
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This article discusses the correlation between thick electrode design and electrochemical performance, analyzing the factors that affect electron-ion transfer and mechanical stability. It summarizes the main design strategies for producing thick electrodes with excellent electrochemo-mechanical properties, reviews state-of-the-art fabrication techniques, and discusses their potential development directions. Challenges and feasible tendencies associated with developing thick electrodes are analyzed and proposed.
Thick electrode is a valid and practical strategy for achieving lithium-ion batteries with high energy density. However, before widespread practical application, the electron-ion transfer dynamics and structural stability of thick electrode must be optimized. Herein, the correlation between electrode structure design and electro-chemical performances is discussed with consideration to electron-ion transfer processes and main attenuation mechanisms. The factors that affect electron-ion transfer and mechanical stability are analyzed systematically. The main design strategies for producing thick electrodes with excellent electrochemo-mechanical properties are summarized. Furthermore, state-of-the-art fabrication techniques for thick electrodes with special microstruc-tures are reviewed, and their potential development directions are discussed. Finally, the challenges and feasible tendencies associated with developing thick electrodes are analyzed and proposed. This review aims to clarify the influence mechanism and key optimization strategies for the electrochemo-mechanical performances of thick electrodes and to illustrate the direction for the future development of fabrication technologies. This is critical for exploring robust thick electrodes with high energy/power densities and mechanical stability from a multi-scale and multi-field standpoint.
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