Direct Recycling of Spent NCM Cathodes through Ionothermal Lithiation
Published 2020 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Direct Recycling of Spent NCM Cathodes through Ionothermal Lithiation
Authors
Keywords
-
Journal
Advanced Energy Materials
Volume 10, Issue 30, Pages 2001204
Publisher
Wiley
Online
2020-06-24
DOI
10.1002/aenm.202001204
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Ambient‐Pressure Relithiation of Degraded Li x Ni 0.5 Co 0.2 Mn 0.3 O 2 (0 < x < 1) via Eutectic Solutions for Direct Regeneration of Lithium‐Ion Battery Cathodes
- (2019) Yang Shi et al. Advanced Energy Materials
- The structure and interaction properties of two task-specific ionic liquids and acetonitrile mixtures: A combined FTIR and DFT study
- (2019) Yan-Zhen Zheng et al. SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY
- Effective regeneration of LiCoO2 from spent lithium-ion batteries: a direct approach towards high-performance active particles
- (2018) Yang Shi et al. GREEN CHEMISTRY
- Lithium ion batteries (NMC/graphite) cycling at 80 °C: Different electrolytes and related degradation mechanism
- (2018) R. Genieser et al. JOURNAL OF POWER SOURCES
- Resolving the Compositional and Structural Defects of Degraded LiNixCoyMnzO2 Particles to Directly Regenerate High-Performance Lithium-Ion Battery Cathodes
- (2018) Yang Shi et al. ACS Energy Letters
- Toward sustainable and systematic recycling of spent rechargeable batteries
- (2018) Xiaoxiao Zhang et al. CHEMICAL SOCIETY REVIEWS
- Recycled Lithium from Simulated Pyrometallurgical Slag by Chlorination Roasting
- (2018) Hui Dang et al. ACS Sustainable Chemistry & Engineering
- Lithium Carbonate Recovery from Cathode Scrap of Spent Lithium-Ion Battery: A Closed-Loop Process
- (2017) Wenfang Gao et al. ENVIRONMENTAL SCIENCE & TECHNOLOGY
- Novel Approach for in Situ Recovery of Lithium Carbonate from Spent Lithium Ion Batteries Using Vacuum Metallurgy
- (2017) Jiefeng Xiao et al. ENVIRONMENTAL SCIENCE & TECHNOLOGY
- Cathodes of spent Li-ion batteries: Dissolution with phosphoric acid and recovery of lithium and cobalt from leach liquors
- (2017) Eliana G. Pinna et al. HYDROMETALLURGY
- Recycling metals from lithium ion battery by mechanical separation and vacuum metallurgy
- (2017) Jiefeng Xiao et al. JOURNAL OF HAZARDOUS MATERIALS
- A promising approach for the recovery of high value-added metals from spent lithium-ion batteries
- (2017) Juntao Hu et al. JOURNAL OF POWER SOURCES
- Direct regeneration of recycled cathode material mixture from scrapped LiFePO 4 batteries
- (2017) Xuelei Li et al. JOURNAL OF POWER SOURCES
- Vibrational assignments, conformational analysis, and molecular structures of $$\left[ {\text{C}_{\text{n}} \text{mim}} \right]\left[ {\text{NTF}_{\text{2}} } \right]$$ C n mim NTF 2 (n = 2, 4, 6, and 8) imidazolium-based ionic liquids: a combined experimental and quantum chemical approach
- (2017) Hossein Azizi-Toupkanloo et al. Journal of the Iranian Chemical Society
- Lithium recycling and cathode material regeneration from acid leach liquor of spent lithium-ion battery via facile co-extraction and co-precipitation processes
- (2017) Yue Yang et al. WASTE MANAGEMENT
- Direct regeneration of cathode materials from spent lithium iron phosphate batteries using a solid phase sintering method
- (2017) X. Song et al. RSC Advances
- Best Practice: Performance and Cost Evaluation of Lithium Ion Battery Active Materials with Special Emphasis on Energy Efficiency
- (2016) Paul Meister et al. CHEMISTRY OF MATERIALS
- Environmentally-friendly oxygen-free roasting/wet magnetic separation technology for in situ recycling cobalt, lithium carbonate and graphite from spent LiCoO 2 /graphite lithium batteries
- (2016) Jia Li et al. JOURNAL OF HAZARDOUS MATERIALS
- Topochemical molten salt synthesis for functional perovskite compounds
- (2016) Lihong Li et al. Chemical Science
- Novel approach to recover cobalt and lithium from spent lithium-ion battery using oxalic acid
- (2015) Xianlai Zeng et al. JOURNAL OF HAZARDOUS MATERIALS
- Study of imidazolium dicationic ionic liquids by Raman and FTIR spectroscopies: The effect of the nature of the anion
- (2015) Taqiyeddine Moumene et al. JOURNAL OF MOLECULAR STRUCTURE
- Understanding the ionic liquid [NC4111][NTf2] from individual building blocks: an IR-spectroscopic study
- (2015) Kenny Hanke et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- Cathode refunctionalization as a lithium ion battery recycling alternative
- (2014) Matthew J. Ganter et al. JOURNAL OF POWER SOURCES
- Salt melt synthesis of ceramics, semiconductors and carbon nanostructures
- (2013) Xiaofeng Liu et al. CHEMICAL SOCIETY REVIEWS
- A brief review on hydrometallurgical technologies for recycling spent lithium-ion batteries
- (2013) Alexandre Chagnes et al. JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY
- Development of a recycling process for Li-ion batteries
- (2012) T. Georgi-Maschler et al. JOURNAL OF POWER SOURCES
- Preparation of Inorganic Materials Using Ionic Liquids
- (2009) Zhen Ma et al. ADVANCED MATERIALS
- Ionothermal synthesis—ionic liquids as functional solvents in the preparation of crystalline materials
- (2009) Russell E. Morris CHEMICAL COMMUNICATIONS
- Facile Ionothermal Synthesis of Microporous and Mesoporous Carbons from Task Specific Ionic Liquids
- (2009) Je Seung Lee et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Studies on Thermal Properties of Selected Aprotic and Protic Ionic Liquids
- (2008) Huimin Luo et al. SEPARATION SCIENCE AND TECHNOLOGY
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationPublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More