As part of my responsibilities, I will be involved in:- Identifying projects eligible for R&D tax credits (CIR)- Leading CIR audits- Managing and developing action plans to achieve and secure financial objectives- Supporting operational teams- Coordinating with cross-functional teams to drive innovation initiatives- Ensuring compliance with regulatory requirements- Tracking and reporting on project performance and financial metrics

Fuel Cell /Hydrogen / Motors - Simulation - Power Converters

Hydrogen for mobility : Fuel Cell Technology & Fuel Cell Materials - Electric/Hybrid/Hydrogen Vehicles

At the Condensed Matter Chemistry Laboratory of Paris (Sorbonne University in collaboration with Faurecia ), I work on the design of hybrid electrospinning, ion-conducting and protonic hybrid membranes that can be used as solid electrolytes for sodium-ion and lithium-ion batteries but also for fuel cells. My responsibilities include • Synthesis, characterization, and structural optimization of Nanostructured hybrid materials.• functionalisation of nanostructured and hybrid materials• Reduce the porosity of the membranes , Evaluation of their performance for fuel cell and battery applications (ex situ and in situ)• Writing scientific papers and project reports, conference presentations

As a part of AIME-ICGM research team: conceptualized, prepared, testing TTO materials and characterized MEAs based on reinforced membranes for low temperature fuel cells.in addition, and due to the high stability of TTO materials at high potential (2 V / RHE), we tried to use as IrO2 supports for the oxygen evolution reaction for the electrolysis of water

i have been working in the Aggregates, Interfaces and Materials for Energy laboratory as a PhD student for the last three years. I developed film-like and nanoparticulate platinum electrocatalysts and non-carbon electrocatalyst supports for proton exchange membrane fuel cell applications in the frame of ERC project SPINAM. During this time, i could prepared Pt electrocatalysts by the electrochemical atomic layer deposition (EC-ALD) technique and characterised the catalysed supports by cyclic and linear sweep voltammetries. In the last three months, continuing my experience in the group as a postdoctoral fellow, i also characterised in situ in single fuel cell the prepared electrode materials. Furthermore, i earned expertise in the electrospinning technique, with which i prepared nanofibrous supports based on doped tin oxide. The main result i achieved is the preparation of highly active and stable electrocatalysts based on Pt nanoparticles deposited on tantalum doped tin oxide fibres. People usually say I am a curiosity-driven person, I like to learn about new scientific topics and to acquire interdisciplinary skills.Work carried out within the framework of the SPINAM project ( ERC-2012-StG_20111012)

In this work we have studied a new electrochemical deposition method called EC-ALD (electrochemical Atomic Layer Deposition). This method is based on the sub-potential deposition (UPD) of the elements constituting the compound during a cycle. The material studied is a semiconductor chalcogenides, Sb2Se3. This material is used in solid Bi2Te3 solutions for cooling systems. The objectives of my work were to optimize the parameters of deposition on a Pt substrate for each of the elements constituting this compound and to show the feasibility of the development of this compound by the EC-ALD method.