About the Project
Conducting research for a changing society: This is what drives us at Forschungs zentrum Jülich. As a member of the Helmholtz Association, we aim to tackle the grand societal challenges of our time and conduct research into the possibilities of a digitized society, a climate-friendly energy system, and a resource-e
Would you like to contribute to the energy transition in Germany through your work? Then the Helmholtz Institute Erlangen-Nürnberg (for Renewable Energy) (HI ERN) is the right place for you! The HI ERN forms the core of the close partnership between Forschungszentrum Jülich, Helmholtz-Zentrum Berlin for Materials and Energy, and Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) at the Erlangen site. The collaboration relates to the areas of innovative materials and processes for photovoltaic energy systems and hydrogen as a storage and carrier medium for CO2 -neutral energy. Support us researching and developing solutions for the climate-neutral, sustainable, and cost-effective utilization of renewable energies.
The successful candidates will be part of the HyThroughGen project team, aiming to accelerate material and component selection processes for next-generation proton exchange membrane electrolyzers (PEMEL). The harsh environments in state-of-the-art electrolyzers require expensive materials such as iridium oxide as catalysts and (platinized) titanium as porous transport layers and current collectors. The next generation aims to reduce the overall cost by increasing the lifetime and even replacing expensive materials. The team combines the expertise of both the Electrocatalysis and the Electrocatalytic Interface Engineering Department of HI ERN to develop new manufacturing methods and accelerated testing of PEMEL materials. We utilize internationally unique material and process characterization methods which are based on the sophisticated coupling of trace element analysis to electrochemical systems, additive manufacturing, and advanced physical analysis methods. Thereby the aim is to significantly contribute to the element of elecrochemical energy conversion as a future key player for electromobility and the energy policy in general.
- Design and optimization of a high throughput electrochemical characterization setup for PEMEL materials (catalysts and protective coatings)
- Benchmarking state-of-the-art materials as a baseline for the developed system
- Study of next-generation materials degradation during electrolysis
- Close collaboration with data scientists and automation specialists to develop a reliable, fast, material testing process
- Collaboration with partners within HI ERN and outside Analysis and communication of the obtained experimental data
- Writing scientific publications and presenting the results in conferences
- Representing the institute in project meetings
- Excellent university degree (master) in Chemistry, Physics, Engineering, or a similar discipline
- Strong interest in pursuing research on electrochemical systems
- Experience in one (or more) of the following areas is desirable: electrochemistry, electrocatalysis, automation and data treatment, element analytics (mass spectrometry, XPS, EDX) Intrinsic motivation to show initiative, creativity, and to work independently
- Excellent organizational skills Ability to show initiative and work independently
- Excellent cooperation and communication skills and ability to work as part of a team
- Excellent skills in spoken and written English
- High motivation for pursuing a PhD within 3 years
We work on the very latest issues that impact our society and are offering you the chance to actively help in shaping the change! We offer ideal conditions for you to complete your doctoral degree
- A lively scientific environment within the institute and possibilities for cooperation with excellent partners at the Friedrich-Alexander-Universität Erlangen-Nürnberg, the Forschungszentrum Jülich, the Helmholtz-Zentrum Berlin, and abroad
- Excellent environment to perform high-quality research and to implement own ideas in the development process
- Work with worldwide unique electrochemical characterization techniques
- Excellent training in electrochemistry
- Extensive further education opportunities 30 days of annual leave
- A structured doctoral degree programme for you and your supervisors with a comprehensive further training and networking package on our doctoral research platform
The position is 3 year fixed term, with possible long-term prospects. Pay in line with 75% of pay group 13 of the Collective Agreement for the Public Service and additionally 60% of a monthly salary as special payment (“Christmas bonus”). Pay higher than the basic pay may be possible.
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