Master’s Thesis in Advanced Cathode Design for Zinc-ion Batteries at FRM II

18.11.2024, Studentische Hilfskräfte, Praktikantenstellen, Studienarbeiten

Water-based Zinc-ion batteries (ZIBs) are promising for sustainable energy storage due to their safety, affordability, and environmental benefits. However, optimizing cathode materials for high performance and long-term stability remains a major challenge. This Master’s project aims to develop advanced cathode materials that enhance ZIB performance by improving energy density, cycling stability, and rate capability. Through material design and structural optimization, this project seeks to address interactions between Zn ions and cathode materials, ultimately reducing issues like dissolution and structural degradation.

Your tasks:

The candidate will study organic, water-compatible cathode materials, focusing on optimizing their composition, crystallinity, and surface properties. This includes material synthesis and modification, structural characterization (XRD, SEM, TEM), and electrochemical performance testing through charge-discharge and cyclic voltammetry.

Your skills:

Candidates should have a background in chemistry, materials science, or a related discipline, with knowledge of electrochemical and structural characterization techniques. Experience in material synthesis, laboratory work, and data analysis is beneficial, along with a strong analytical approach and attention to detail.

Contact:

Lucas Kreuzer | lucas.kreuzer@frm2.tum.de

Kontakt: lucas.kreuzer@frm2.tum.de