Italy
I graduated with a Master of Science in Chemical Engineering from Politecnico di Milano in 2020 and subsequently started my career as a Quality Assurance Engineer in a world-leading semiconductor company. In this role, I mainly focus on automotive products and manage quality topics for some of the company’s key strategic customers, acting as a quality interface between the customer and internal cross-functional teams. Over the years, I have developed an agile and analytical mindset, with a strong focus on structured problem solving and effective project execution. I am comfortable working both within cross-functional teams and independently, taking full ownership of activities from initial investigation and root cause analysis through to action implementation, verification of effectiveness, and formal closure. I am strongly motivated by the opportunity to apply my engineering background to real industrial challenges, transforming data and technical analysis into concrete, value-adding actions. I am committed to continuous learning and to strengthening both my technical competencies and soft skills, with the goal of contributing to the organization’s success and ensuring high satisfaction for its customers.
Quality Assurance Engineer specialized in automotive products and strategic customers. Strong background in applying 8D methodology, core automotive quality tools and 5why-Ishikawa for structured problem solving and continuous improvement. Experienced in: • Managing customer claims, defining containment actions, root cause analysis, and robust corrective/preventive actions. • Performing data analysis to monitor process performance and quality. • Interfacing with cross functional teams to drive quality improvements and secure product robustness over the full lifecycle. • Preparing and presenting technical reports and quality dashboards
The research focused on developing a polymer-based oil tracer for enhanced oil recovery (EOR) applications, with a dual objective: 1. Synthesis of the polymer: To create a novel polymer suitable for use as an oil tracer, possessing optimal properties such as viscosity, thermal stability, and detectability. 2. Industrial scale-up: To translate the laboratory-scale synthesis to a larger, industrially viable scale, addressing key factors like process scalability, cost-effectiveness, and reproducibility. The overarching goal was to create a reliable and efficient oil tracer capable of optimizing secondary and tertiary oil recovery processes, thereby enhancing overall hydrocarbon extraction efficiency.