Stellantis has crafted a bold strategic plan that paves the way to achieve carbon net zero by 2038. To deliver this objective the introduction of advanced technologies in Powertrain (like new energy storage cells), Electric and Electronics devices (like embedded electronics as well as electrical motors) involves more and more the knowledge on raw materials as key skill in the product development. In Global Purchasing and Supply Chain team (GPSC), the Materials and Technical Expertise group (MTE) is in charge to deal with raw materials technologies to secure them.
The candidate will be involved in activities concerning the electro-chemicals phenomena which regulate and influence the main working parameters of an energy cells.
Job responsibilities include but not limited to:
Characterization (chemical and physical) of active materials (CAM, AAM, ELECTROLYTES, SEPARATOR, BINDERS) in Li-ion batteries Gen3, Gen4, Gen5 to define the cells' specs and rise the performances
Electro-Chemical phenomena occurring in CAM, AAM to guarantee performances and cell healthy
Qualification of re-used and re-cycled raw materials in advanced CAM, AAM, ELECTROLYTES, SEPARATORS and impact on product performances and to linked to circularity technologies used
Support and follow the development of new chemical materials: water-based binders, 100% Si based Anodes
Modelling and Simulation of materials in terms of crystal lattices to evaluate the electrochemical benefits (stability, charge carrier, mobility)
The candidate will enable the management of the activities related to the raw materials in collaboration with suppliers and internal STELLANTIS teams (Purchasing, logistic, Sustainability, Circular Economy, Business intelligence)
Technical Skills required for the position include but are not limited to:
Expertise in Materials Science focusing on Physical & Chemical validation of raw materials for elect materials like Nickel, Cobalt, Manganese, Graphite, Lithium, Organic material & recycled raw materials
Charge - discharge curves (SOC, C-rate) for material evaluation
Eco-design: how to design the CAM and AAM to optimize the recycling and closed-loop phases of cells
Modelling of the behaviors of the raw materials in electrodes: salts and chemical/physical links
Knowledge in manufacturing and transformation processes of precursors that allow the optimization of RM in final components: CAM AAM and separator
Laboratory evaluation of charge/discharge profiles (SOC, C-rate)
Physical Chemical validation of Raw material as microscopy (SEM, FIB, HRSEM, AFM, STM, IPC, XRF)
Coating technologies of raw materials for precursors and electrodes
Critical Skills required for the position include but are not limited to:
Electrochemical phenomena involved in energy storage (Li-ion cells)
Technologies of manufacturability/transformation for precursor materials enable CAM, AAM
Qualification for CAM AAM materials
Modelling and Simulation of materials in terms of crystal lattices (Li salts)
Established network in the supply chain for precursor production and transformation