Courses are held in English.
Please visit https://www.uni-muenster.de/Baccara/application/index.html.
The interdisciplinary research activities, from which you can choose a topic for your doctorate, are centred on theory and modelling, material synthesis, catalysis, analysis and characterisation, battery cell, recycling, sustainability and life cycle analysis.
Theoretical work is conducted on very different length- and time-scales: ab initio methods for the description of reaction processes, for the determination of electrochemical stabilities and for the optimisation of force fields; molecular dynamics simulations for improved understanding of structural and kinetic processes in electrolytes; and machine learning concepts for improved analysis of experimental and simulated data.
Within this research focus, new molecules and solid materials are to be synthesised in a targeted manner in order to positively influence key performance parameters such as internal resistance, temperature windows, battery life and intrinsic cell safety. The development of improved and sustainable synthesis pathways is also an important element.
In the field of lithium-ion batteries, catalysed reactions are of particular interest. The time- and cost-intensive formation step after assembly and during the first charge is essentially based on a polymerisation reaction of electrolyte constituents and lasts from several hours to days. Polymer-based solid state batteries (SSBs) represent a broad field of research for catalysis research.
Individual molecular and solid materials as well as the complex "battery cell" system require a broad portfolio of methods and proven experts for local and global material analysis in order to characterise different interfaces and interphases and investigate the micro-structures and nano-structures of pure substances and composites.
The battery cell serves as a technological demonstrator for developed materials. All developments of the previously described research disciplines converge in this research area. They are thoroughly electrochemical with regard to their interaction with the "battery cell" system and subjected to an in-depth post-mortem analysis (field of activity: "analysis and characterisation") in order to elucidate reaction mechanisms and damage patterns. These findings are reflected back to the respective focal points and the materials are iteratively optimised.
The successful and sustainable recycling of a battery cell begins with the design of the materials and the manufacture of the components. According to the so-called "Design for Recycling" practice, innovative materials and processes are researched that enable the use of materials and, in the best-case scenario, individual components (e.g. electrodes) with minimal performance losses. Life cycle analyses can also be used to develop processes that enable the most energy-efficient separation and recovery of the individual cell materials, either as components or as raw materials.
Students must pay a semester contribution fee of 317.48 EUR per semester. This includes a "semester ticket" covering public transportation in the greater Münster area and throughout Germany.
You can find more information here:
https://www.uni-muenster.de/studieninteressierte/en/einschreibung/semesterbeitrag.shtml
We recommend that students budget at least 900 EUR per month to cover personal expenses (accommodation, living expenses, health insurance).
The granted salary for the position of doctorate research associate corresponds to the salary level TV-L E 13 (67%) as a part-time position.
A Master’s degree in chemistry or a related field
Please visit https://www.uni-muenster.de/Baccara/application/index.html.
As in all popular university cities in Germany, accommodation is in high demand and is not easy to find in Münster – but it’s not impossible either!
Please contact the International Office (Bachelor's and Master's students) or the CERes (doctoral candidates) of the university for advice. Please also note that the University of Münster (like most German public universities) does not have its own student halls of residence.
With about 43,000 students and 5,500 academics, the University of Münster is one of the largest universities in Germany. It enjoys an outstanding reputation in the region and far beyond for its excellent research opportunities, high-quality teaching and promotion of junior researchers. Fifteen faculties with 280 degree programmes and some 30 research centres comprise the institutional backbone of the university. Besides its academic opportunities, the University of Münster offers a wide and varied range of extracurricular activities. Pursue your interests by participating in student societies, university theatre, choirs, orchestras, bands, and sports courses. Additionally, make sure to visit the university's museums and gardens to further enrich your experience.
Münster is located in north-west Germany, close to the border with the Netherlands. The city is a lively student town, famous for its bicycle-friendly atmosphere and student pubs. Of Münster's total population of approx. 319,400 inhabitants, over 62,800 are students at the different universities. Münster is a thriving centre of science and academia. It is a great place to live, learn and teach.
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