Batteries reuse and direct production of high performances cathodic and anodic materials and other raw materials from batteries recycling using low cost and environmentally friendly technologies

Climate, Energy & MobilityHORIZON-RIAID: 101069685
EC Contribution
€89,430
Consortium Size
18 orgs
Start Year
2022
Summary

Rhinoceros will develop, improve and demonstrate, in an industrially relevant environment, an economically and environmentally viable route for re-using, re-purposing, re-conditioning and recycling of EoL EV and stationary batteries. Rhinoceros will first develop a smart sorting and dismantling system enabling the automated classification and dismantling of LIBs and the reassembly of still working modules in new repurposed batteries for second life applications such as batteries for energy storage systems. When direct reuse and repurpose of batteries is not possible, a circular recycling route of all the materials present in LIBs (e.g., metals, graphite, fluorinated compounds and polymers, active materials) will be followed to close the materials loop. This route is based on a set of cost efficient, flexible and environmentally friendly routes targeting the pre-treatment, refining and the recovery of materials. Through product qualification by industrial end-users, Rhinoceros will demonstrate the direct production of high performances cathodic and anodic materials and other raw materials at competitive costs from battery recycling. The achievements will bring Europe to an increased independence level from foreigner manufacturers and raw materials suppliers.

Consortium (18)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (14)
Co-solvent controlled PVDF extraction from spent Li-ion batteries using supercritical CO2
Separation and Purification Technology· 2025DOI
Yiğit Akbaş, Martina Petranikova, Burçak Ebin
Direct Synthesis of Advanced Electrode Materials from End-of-Life Li-Ion Batteries
ECS Meeting Abstracts· 2025DOI
Ludovica D'Annibale, Pier Giorgio Schiavi, Arcangelo Celeste, Francesca Pagnanelli, Sergio Brutti, Pietro Altimari
Direct Synthesis of Li-Mn-rich Cathode Precursor from End-of-life Li-ion Batteries
CHEMICAL ENGINEERING TRANSACTIONS· 2025DOI
Ludovica D’Annibale, Pier Giorgio Schiavi, Arcangelo Celeste, Sergio Brutti, Francesca Pagnanelli, Pietro Altimari
Exploring the Solubility of Ethylene Carbonate in Supercritical Carbon Dioxide: A Pathway for Sustainable Electrolyte Recycling from Li-Ion Batteries
Batteries· 2025DOI
Nils Zachmann; Claude Cicconardi; Burçak Ebin
Graphite recovery and synthesis of graphene oxide from end-of-life Li-ion batteries: Impact of thermal, mechanical, and mechanochemical pretreatments
Carbon· 2025DOI
Pier Giorgio Schiavi, Ludovica D'Annibale, Andrea Giacomo Marrani, Francesco Amato, Olga Russina, Silvia Iacobelli, Francesco Mura, Raphael Sieweck, Francesca Pagnanelli, Pietro Altimari
Implementing Hybrid Tsetlin Machine and Q-Learning for Solving the Job Shop Scheduling
Communications in Computer and Information Science, Engineering Applications of Neural Networks· 2025DOI
Reshma Maharjan, Per-Arne Andersen, Lei Jiao
Selective Lithium Extraction from End-of-Life Li-Ion Batteries As an Anodic Reaction in Water Electrolysis: Integrating Lioh Recovery with Hydrogen Generation
ECS Meeting Abstracts· 2025DOI
Pier Giorgio Schiavi, Ludovica D'Annibale, Andrea Giacomo Marrani, Francesca Pagnanelli, Pietro Altimari
Supercritical CO2 extraction behavior of electrolyte solvents from Li-ion battery black mass
Journal of CO2 Utilization· 2025DOI
Nils Zachmann, Burçak Ebin
Towards Electrolyte free Li-ion Battery Waste - Utilizing supercritical CO2 extraction and thermal treatment for electrolyte recycling
Series Doctoral dissertations at Chalmers University of Technology. New series: 5663· 2025
Nils Zachmann
Implementation of a sub-and supercritical carbon dioxide process for the selective recycling of the electrolyte from spent Li-ion battery
Journal of CO2 Utilization, Elsevier· 2024DOI
Nils Zachmann a, Robert V. Fox b, Martina Petranikova a, Burçak Ebin a
Aqueous electrochemical delithiation of cathode materials as a strategy to selectively recover lithium from waste lithium-ion batteries
Journal of Energy Chemistry· 2023DOI
Pier Giorgio Schiavi, Andrea Giacomo Marrani, Olga Russina, Ludovica D'Annibale, Francesco Amato, Francesca Pagnanelli, Pietro Altimari
Batterierecycling–Technologien im Überblick
CITplus· 2023DOI
Oleksandr Dolotko, Michael Knapp, Helmut Ehrenberg
Benchmark depository of 2ndLife prone LIB & Acceptance criteria and guidelines
Electrolyte Recovery from spent Electric Vehicle Lithium-Ion Batteries using Supercritical Carbon Dioxide Extraction
Zachmann, Nils; Ebin, Burçak
Deliverables (1)
Other Results (1)
Periodic Reporting for period 1 - RHINOCEROS (Batteries reuse and direct production of high performances cathodic and anodic materials and other raw materials from batteries recycling using low cost and environmentally friendly technologies)