Professor Michel Armand is one of the world's leading scientists in the RD these refer to Li-ion, Na-ion, Li-S, and Li-air cells. At a young age, he formalized the concept of electrochemical intercalation and fabricated the first SSB with sodium-intercalated graphite as the electrode in 1972. Subsequently, he led the use of solid polymer electrolytes and developed lithium-metal-polymer batteries with vanadium oxide as the cathode in 1978. Michel successfully conducted research in new salts topics based on delocalized anions of the sulfonimide family in 1986; his research areas included 1) organic electrode materials, i.e., innovations in redox-active organics, which included poly quinones and aromatic dicarboxylates, and 2) carbon "nano painting" process that has made LiFePO4@C the safest cathode in 2002. Because Michel has co-authored over 500 publications and many patents, it is impractical to fully review his outstanding contributions in electrochemistry in this work. This work is limited to a few of his contributions pertaining to the evolution of electrochemical energy storage. We further discussed different routes envisioned for further progress in rechargeable batteries.

中文翻译：

---

向 Michel Armand 致敬：从摇椅 - 锂离子电池到固态锂电池

Michel Armand 教授是 RD 领域的世界领先科学家之一，这些电池是指锂离子、钠离子、锂硫和锂空气电池。1972年，他将电化学插层的概念正式化，并制造出第一个以插钠石墨为电极的SSB。随后，他率先使用固体聚合物电解质，开发出以氧化钒为电极的锂金属聚合物电池。 1978 年成为阴极。1986 年，Michel 成功地进行了基于磺酰亚胺族离域阴离子的新盐课题的研究；他的研究领域包括 1) 有机电极材料，即氧化还原活性有机物的创新，包括聚醌和芳族二羧酸盐，以及 2) 碳“纳米涂漆”工艺，使 LiFePO4@C 成为 2002 年最安全的正极。由于米歇尔与人合着了 500 多篇出版物和多项专利，因此在这项工作中全面回顾他在电化学方面的杰出贡献是不切实际的。这项工作仅限于他在电化学储能发展方面的一些贡献。我们进一步讨论了为在可充电电池方面取得进一步进展而设想的不同途径。