ReCell Patent Tracker
Date Updated: 10/4/2023
| Focus Area | Project Title | Patent Title | Organizations | Patent Application Number | Patent Award Number |
|---|---|---|---|---|---|
| Direct Recycling Of Materials | Thermal Binder Removal | Method for Recovering Lithium Battery Cathode Active Material from Cathode Waste | Argonne | 16/846,967 | |
| Direct Recycling Of Materials | Electrolyte Componet Recovery | Method for Recovering and Recycling Electrolyte Salts from Lithium Batteries | Argonne | 17/149,859 | |
| Direct Recycling Of Materials | Cathode/Cathode Separation via Froth Floatation | Method for Separating Individual Cathode Active Materials From Li-ion Batteries | MTU/Argonne | 16/985,028 | |
| Direct Recycling Of Materials | Redox relithiation | Cathode Recycling of End-of-Life Lithium Batteries | NREL | 17/087,303 | |
| Direct Recycling Of Materials | Soxhlet binder removal | Methods for Cathode Recycling of End-of-Life Lithium Batteries | NREL | 17/087,468 | |
| Direct Recycling Of Materials | Solvent-based Electrode Recovery | Efficient Recovery Processes for the Black Mass From Spent Lithium-ion Batteries | ORNL | 17/177,120 | |
| Direct Recycling Of Materials | Solvent-based Electrode Recovery | Recovery of Materials From Spent Batteries Using a Green Solvent | ORNL | 17/551,395 | |
| Direct Recycling Of Materials | Hydrothermal Relithiation | Method for Lithium-ion Battery Cathode Recycling | UCSD | 63/090,136 | |
| Direct Recycling Of Materials | Hydrothermal Relithiation | Design and Optimization of Direct Recycling of Spent Li-ion Batteries Cathode Materials | UCSD | 63/146,373 | |
| Direct Recycling Of Materials | Solvent-based Electrode Recovery | Recovery of Materials From Electrode Scraps and Spent Lithium-ion Batteries Using a Green Solvent | ORNL | 17/551,636 | |
| Direct Recycling Of Materials | Hydrothermal Relithiation | Achieving Low-Temperature Hydrothermal Relithiation by Redox Mediation for Direct Recycling of Spent Lithium-ion Battery Cathodes | UCSD | 63/313,677 | |
| Direct Recycling Of Materials | Electrochemical Relithiation | Methods and Devices for Electrochemical Relithiation of Lithium-ion Batteries | NREL | 17/514,004 | |
| Direct Recycling Of Materials | Ionothermal Relithiation | Direct Regeneration of NMC Cathodes through Ionothermal Lithiation | ORNL | 63/018,625 | |
| Advanced Resource Recovery | Electrometallurgy in Molten Hydroxides | Method of Recovery of Critical Materials From Waste Streams in Molten Hydroxide Salts | Argonne | IN-23-004 | |
| Advanced Resource Recovery | Cell Shredding | Recovery of Contaminant Free Battery Free Materials | Argonne | 17/180,621 | |
| Advanced Resource Recovery | Solvent-based Electrode Recovery | Efficient recovery processes for the black mass from spent lithium-ion batteries | ORNL | 17/177,120 | |
| Advanced Resource Recovery | Solvent-based Electrode Recovery | Recovery of materials from spent batteries using a green solvent | ORNL | 63/126,695 | |
| Advanced Resource Recovery | Solvent-based Dual Process | Relithiation process for direct regeneration of cathode materials from spent lithium-ion batteries | ORNL | 17/363,272 | |
| Advanced Resource Recovery | Aqueous Sequential Separation | Aqueous solution process for recycling electrode materials from spent lithium ion batteries | ORNL | 63/178,569 | |
| Advanced Resource Recovery | Solvent-based Electrode Recovery | Direct recycling of lithium-ion battery anode scraps for manufacturing a new anode | ORNL | 17/386,660 | |
| Advanced Resource Recovery | Solvent-based Electrode Recovery | Recovery of materials from electrode scraps and spent lithium-ion batteries using a green solvent | ORNL | 63/126,681 | |
| Advanced Resource Recovery | Solvent-based Electrode Recovery | Battery Identity Global Passport – A Universal Battery Identification Toolkit | ORNL | 63/211,080 |
