Decarbonizing our energy economy is one of the greatest challenges of our generation. To this goal, the transportation sector needs to be fully transformed which is particularly challenging for heavy duty and long-range applications. Low temperature fuel cells are particularly well suited given their efficiency, high power, and ability to drive long distances with a fast tank refill. However, realizing these new applications necessitates radical innovations in the fundamental science of materials and devices to improve the power density and durability of fuel cells.
In this project you will design and synthesize new porous materials for low temperature fuel cells. You will employ electrochemical techniques, coatings methods, and porous material synthesis to fabricate new electrode concepts with improved performance and durability. You will deploy spectroscopic, microscopic, and in-operando electrochemical diagnostics to establish structure/composition – performance relationships. You will collaborate with other group members and several industrial and academic partners to bridge scales between fundamental materials science all the way to stack implementation. The main applications of your research will be: (1) heavy duty fuel cell trucks and (2) reversible fuel cells for space applications.
An interview, a scientific presentation and a writing assignment are part of the selection procedure.
Do you recognize yourself in this profile and would you like to know more? Please contact
dr. Antoni Forner-Cuenca, a.forner.cuenca[at]tue.nl, phone: +31 40 247 6258.
Further information about the research lab on electrochemical porous materials and interfaces, see www.fornercuencaresearch.com. More information about the chair on Membrane Materials and Processes can be found at www.tue.nl/mmp and more information about Eindhoven University of Technology and the department of Chemical Engineering & Chemistry is available at www.tue.nl.
For information about terms of employment, click here or contact ms. P.J. van de Weijer (Sandra),
Please visit www.tue.nl/jobs to find out more about working at TU/e!
Candidates possessing both suitable experience and qualifications are invited to apply. Please send your application via the apply-now button and upload the following documents:
Review of applications will start as soon as applications are received and will continue until the position has been filled.
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Membrane Materials and Processes at Eindhoven University of Technology
The chair Membrane Materials and Processes (www.tue.nl/mmp) at the department of Chemical Engineering and Chemistry at Eindhoven University of Technology (www.tue.nl) focuses on the design and development of polymer membranes and porous electrodes to control mass transport in sustainable processes. The chair combines and integrates materials chemistry, electrochemical engineering, and process technology. Application areas are water and energy, with a strong focus on the recovery and reuse of resources, the valorization of waste streams and energy efficiency. ‘Closing cycles’ and ‘value from waste’ are leading themes in the research program. Next to fundamental academic research, application-oriented research in close collaboration with the industry is stimulated.
Electrochemical porous materials and interfaces
The research on electrochemical porous materials and interfaces is led by dr. Forner-Cuenca. We aspire to facilitate the deployment of transformative energy technologies in the real world. To do so, we employ fundamental principles at the convergence of materials science, electrochemical engineering, and surface science to synthesize, characterize, simulate, and implement novel materials into next-generation electrochemical devices (e.g., redox flow batteries, fuel cells, electrolyzers). We are especially interested in understanding complex transport through porous media, synthesizing functional polymer coatings, and developing advances operando techniques.
The TU/e offers academic education that is driven by fundamental and applied research. We combine scientific curiosity with a hands-on mentality. Our educational philosophy is based on personal attention and room for individual ambitions and talents. Our research meets the highest international standards of quality. We push the limits of science, which puts us at the forefront of rapidly emerging areas of research.