Munich, Bavaria, Germany
Electrochemical Modeling of the Aging Behavior of Ni-rich NMC based Cathodes for Lithium-Ion Battery Cells.
Master Thesis in field of Aging Mechanisms and Modeling of Lithium-Ion Batteries: "A physics-based Model for cyclic and calendar Aging of Lithium-Ion Batteries using Electrochemical Impedance Spectroscopy and Time Domain Measurements", achieved best possible grade of 1,0 (A+).
• Data analysis in the field of lithium-ion battery development using MATLAB • Investigation of field data to analyse the aging process of HV-batteries
• Development of a MATLAB application for automated graphical and statistical evaluation from measurement data of lithium-ion batteries (e.g. balancing behaviour) • Planning, construction and operation of an automated test bench for measuring the capacity of PHEV-batteries using CAN for communication • Support in the daily testing operation of the lithium-ion battery development (preparation and execution of measurements on the vehicle as well as test stand)