Direct Recycling of Spent NCM Cathodes through Ionothermal Lithiation

Wang Tao; Luo Huimin; Bai Yaocai; Li Jianlin; Belharouak Ilias; Dai Sheng

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Direct Recycling of Spent NCM Cathodes through Ionothermal Lithiation

机译：通过离子热锂化直接回收废的NCM阴极

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Ionic liquids (ILs) are a family of nonconventional molten salts that offer many advantages, such as negligible vapor pressures, negligible flammability, wide liquidus ranges, good thermal stability, and much synthesis flexibility. The unique solvation environment of these ILs provides new reaction or flux media for controlling formation of solid-state materials with a minimum perturbation of morphologies. A successful lithiation via ionothermal synthesis using a cost-effective Li halide as Li source and recyclable ILs as solvents is reported here for the direct recycling of LiNi1/3Co1/3Mn1/3O2(NCM 111) cathodes. In addition, the ionic liquids can be readily recycled and reused after ionothermal lithiation. The lithiation of spent cathodes can enable the direct recycling of spent cathode materials in lithium-ion batteries.

机译：离子液体（ILS）是一种非转化的熔盐系列，提供许多优点，例如可忽略不计的蒸气压，可忽略的可燃性，宽液相量，良好的热稳定性以及许多合成柔韧性。这些ILS的独特溶剂化环境提供了新的反应或助熔剂，用于控制具有最小扰动形态的固态材料的形成。通过使用成本效率的锂卤化物作为锂源和可回收ILS作为溶剂的直接回收用于LiNi1 / 3CO1 / 3MN1 / 3O2（NCM 111）阴极的直接回收，通过离子热合成的成功锂化。此外，离子液体可以容易地再循环并在离子热锂化后重复使用。花的阴极的锂化可以在锂离子电池中直接回收废阴极材料。

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来源
《Advanced energy materials》 |2020年第30期|2001204.1-2001204.6|共6页
作者
Wang Tao; Luo Huimin; Bai Yaocai; Li Jianlin; Belharouak Ilias; Dai Sheng;
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作者单位

Oak Ridge Natl Lab Chem Sci Div Oak Ridge TN 37831 USA|Univ Tennessee Dept Chem Knoxville TN 37916 USA;

Oak Ridge Natl Lab Energy & Transportat Sci Div Oak Ridge TN 37831 USA;

Oak Ridge Natl Lab Energy & Transportat Sci Div Oak Ridge TN 37831 USA;

Oak Ridge Natl Lab Energy & Transportat Sci Div Oak Ridge TN 37831 USA;

Oak Ridge Natl Lab Energy & Transportat Sci Div Oak Ridge TN 37831 USA;

Oak Ridge Natl Lab Chem Sci Div Oak Ridge TN 37831 USA|Univ Tennessee Dept Chem Knoxville TN 37916 USA;

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正文语种 eng
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关键词
batteries; direct recycling; ionic liquids; ionothermal synthesis; structure-property relationships;

机译：电池;直接回收;离子液体;离子综合;结构性质关系;

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机译：通过聚氯乙烯和氯化聚氯乙烯在亚临界水中回收NCM阴极材料的再循环：比较研究
2. Selectively peeling of spent LiFePO_4 cathode by destruction of crystal structure and binder matrix for efficient recycling of spent battery materials [J] . Journal of Hazardous Materials . 2020,第Mara15期

机译：通过破坏晶体结构和粘合剂基质来选择性剥离废LiFePO_4阴极，以有效回收废电池材料
3. Recycling of LiCoO_2 cathode material from spent lithium ion batteries by ultrasonic enhanced leaching and one-step regeneration [J] . Siyuan Zhou, Yingjie Zhang, Qi Meng, Journal of Environmental Management . 2021,第Jana1期

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4. Electrochemical recycling of cobalt from cathodes of spent lithium-ion batteries for application in interconnects of solid oxide fuel cells [C] . E. M. Garcia, T. Matencio, R. Z. Domingues European Fuel cell Forum . 2011

机译：从锂离子电池的阴极中钴的电化学回收用于固体氧化物燃料电池互连的应用
5. The recovery of cathode metals from spent lithium-ion batteries: Recycling economic and breakeven modeling. [D] . Hanlon, Vincent. 2016

机译：从废锂离子电池中回收阴极金属：循环经济和盈亏平衡模型。
6. Role of PVDF in Rheology and Microstructure of NCM Cathode Slurries for Lithium-Ion Battery [O] . Sang Hoon Sung, Sunhyung Kim, Jeong Hoon Park, 2020

机译：PVDF在锂离子电池NCM阴极浆液流变学中的作用
7. Design and Optimization of the Direct Recycling of Spent Li-Ion Battery Cathode Materials [O] . -1

机译：花锂离子电池正极材料直接回收的设计与优化

Direct Recycling of Spent NCM Cathodes through Ionothermal Lithiation

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