PhD and Postdoctoral Opportunities in Polymer Science and Energy Systems at EPFL Join to apply for the PhD and Postdoctoral Opportunities in Polymer Science and Energy Systems at EPFL role at PhDFinder
PhD and Postdoctoral Opportunities in Polymer Science and Energy Systems at EPFL 13 hours ago Be among the first 25 applicants
Join to apply for the PhD and Postdoctoral Opportunities in Polymer Science and Energy Systems at EPFL role at PhDFinder
University: École Polytechnique Fédérale de Lausanne (EPFL)
Country: Switzerland
Deadline: Not specified
Fields: Chemical Engineering, Materials Science, Polymer Science, Energy Systems, Physical Chemistry
Are you passionate about advancing the frontiers of polymer science and eager to contribute to transformative innovations in sustainable energy systems? Do you envision your research making a tangible impact on next-generation batteries and critical mineral separations? If so, an exceptional opportunity awaits you at one of Europe’s premier institutions.
The École Polytechnique Fédérale de Lausanne (EPFL), renowned for its pioneering research and vibrant international community, is pleased to announce multiple openings for PhD students and postdoctoral researchers in the newly established Huang Lab. Dr. Rachel Huang, who will be joining EPFL as a tenure-track Assistant Professor in Chemical Engineering starting July 1, 2026, invites highly motivated candidates to become founding members of her research group. The lab will be situated at the intersection of polymer science and energy systems, with a particular emphasis on the fundamental understanding of ion and solvent transport in polymers and its translation to practical, energy-related applications.
Research Topic and Project Overview
The Huang Lab’s research agenda is centered on elucidating the molecular mechanisms governing ion and solvent transport in polymeric materials. This foundational knowledge is crucial for the rational design of advanced materials that can address pressing challenges in energy storage, energy conversion, and the efficient separation of critical minerals. By bridging the gap between fundamental science and technological innovation, the lab aims to develop novel polymers and membrane systems that enhance the performance of batteries, fuel cells, and separation processes central to the global energy transition.
Importance of the Topic in Today’s World
As the world intensifies its pursuit of sustainable energy solutions, the demand for high-performance materials that can enable efficient storage, conversion, and utilization of energy is greater than ever. Polymers play a pivotal role in these technologies, serving as electrolytes, separators, and active components in devices ranging from lithium-ion batteries to redox flow batteries and beyond. Furthermore, the secure and sustainable supply of critical minerals—essential for the production of renewable energy technologies—relies on innovative separation processes that can be enabled by advanced polymeric materials. The Huang Lab’s research thus addresses both the materials science and engineering challenges at the heart of the energy transition, with the potential to deliver breakthroughs that will shape the future of clean energy.
About The Lab And Supervisor
Dr. Rachel Huang brings a wealth of expertise in polymer science, ion transport phenomena, and energy systems to EPFL. Her interdisciplinary approach combines cutting-edge experimental techniques with theoretical modeling to unravel complex transport processes in soft materials. As a new faculty member, Dr. Huang is committed to fostering a collaborative, inclusive, and intellectually stimulating research environment where creativity and curiosity are highly valued. Members of the Huang Lab will have direct access to state-of-the-art facilities at EPFL and benefit from a robust network of academic and industrial collaborators.
Benefits of Conducting Research at EPFL
EPFL is internationally recognized for its excellence in engineering and physical sciences, offering unparalleled resources, mentorship, and professional development opportunities. Located in Lausanne, Switzerland, EPFL provides a dynamic and multicultural environment, with a strong emphasis on interdisciplinary research and innovation. Graduate students and postdoctoral researchers at EPFL enjoy competitive funding, access to world-class laboratories, and a vibrant scientific community that fosters both academic and personal growth. The university’s strategic location in the heart of Europe also facilitates collaborations with leading research institutions and industry partners worldwide.
Ideal Candidate Profile
The Huang Lab seeks candidates who are intellectually curious, self-driven, and enthusiastic about contributing to high-impact research at the interface of polymer science and energy technology. Ideal applicants will possess a strong background in one or more of the following areas: chemical engineering, materials science, polymer chemistry, physical chemistry, or related disciplines. Prior research experience in polymer synthesis, characterization, membrane science, or electrochemical systems is highly desirable. Candidates should demonstrate a commitment to scientific excellence, effective communication skills, and a collaborative spirit.
Requirements
– A Master’s degree (for PhD applicants) or a PhD (for postdoctoral applicants) in chemical engineering, materials science, polymer science, physical chemistry, or a closely related field
– Demonstrated research experience relevant to polymer science, energy storage/conversion, or separation processes
– Strong analytical and problem-solving skills
– Excellent written and oral communication abilities in English
– Motivation to work in a collaborative and interdisciplinary research environment
Application and Contact Information
Interested candidates are invited to follow the application instructions provided on the Huang Lab website: https://lnkd.in/gDYge9bU. For further information about the research group, project details, and application process, please refer to the official EPFL press release: https://lnkd.in/gXdvhAai.
This position was advertised by Dr. Rachel Huang on LinkedIn.
Conclusion
If you aspire to advance your academic career while contributing to impactful research in polymer science and sustainable energy, we encourage you to apply to join the Huang Lab at EPFL. Take the first step towards shaping the future of energy systems and explore more opportunities like this below.
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