⛔ This position is no longer available.
University: ETH Zurich
Country: Switzerland
Deadline: Not specified
Fields: Chemical Engineering, Materials Science, Environmental Engineering, Mechanical Engineering, Chemistry, Physics
Topic: Switzerland – Postdoc in Membrane Separations at ETH Zurich
Fields: Chemical Engineering, Materials Science, Environmental Engineering, Mechanical Engineering, Chemistry, Physics
Position: postdoc
Country: europe
Deadline: Not specified
University: ETH Zurich
Real Country: Switzerland
Main Category: engineering
—
Are you passionate about advancing sustainable technologies and eager to lead groundbreaking research in membrane separations for energy and environmental applications? If so, a postdoctoral position at ETH Zurich may be the perfect opportunity to propel your academic career and contribute to a more sustainable future.
About the University or Research Institute
ETH Zurich, or the Swiss Federal Institute of Technology in Zurich, stands as a beacon of scientific innovation and academic excellence. Consistently ranked among the world’s top universities, ETH Zurich is renowned for its rigorous programs in science, engineering, and technology. With a vibrant campus located in the heart of Switzerland’s largest city, ETH Zurich offers a dynamic and multicultural environment, attracting students and researchers from over 120 countries.
Switzerland itself is celebrated for its high standard of living, political stability, and commitment to research and development. The country’s central location in Europe provides unparalleled access to international collaborations, conferences, and industry partnerships. ETH Zurich’s reputation for fostering independent thinking, its state-of-the-art research facilities, and its dedication to sustainability and diversity make it an ideal environment for ambitious researchers seeking to make a global impact.
Research Topic and Significance
The postdoctoral research position focuses on next-generation membrane separations—a field at the forefront of addressing critical challenges in energy efficiency and environmental sustainability. Membrane and interfacial science play a pivotal role in applications such as carbon capture, gas purification, and water treatment. These technologies are essential for reducing greenhouse gas emissions, enabling cleaner industrial processes, and ensuring access to safe water.
With the world facing urgent climate and resource challenges, innovations in membrane technology offer pathways to disruptive improvements in industrial separations. The research at ETH Zurich’s Membrane and Interfacial Science Lab aims to design materials and processes that not only enhance performance but also minimize energy consumption and environmental impact. By tackling both fundamental and applied aspects of membrane science, this research contributes to the development of scalable, real-world solutions for a sustainable future.
Project Details
The successful postdoctoral researcher will join the Membrane and Interfacial Science Lab within the Department of Mechanical and Process Engineering (D-MAVT) at ETH Zurich. Under the guidance of Prof. Anthony Straub, the researcher will lead and develop innovative research activities in membrane processes.
Key responsibilities include:
– Experimental evaluation of membrane performance for gas and liquid separations, such as carbon capture, methane purification, and water treatment.
– Fabrication and characterization of nanoporous and polymeric materials.
– Theoretical and computational modeling to analyze transport phenomena and energy efficiency.
– Supervision and mentoring of doctoral and master’s students, fostering leadership skills.
– Preparation of scientific manuscripts and contributions to research proposals.
– Collaboration with industrial partners and participation in national research initiatives, such as NCCR Separations.
ETH Zurich provides access to advanced research infrastructure, international scientific networks, and opportunities to publish in high-impact journals. The work environment is open, inclusive, and designed to support scientific growth and professional development.
Candidate Profile
This position is suited for highly motivated researchers with a strong academic background and a passion for advancing membrane science. Suitable candidates will have:
– A PhD in Chemical Engineering, Materials Science, Environmental Engineering, Mechanical Engineering, Chemistry, Physics, or a closely related field.
– Demonstrated experience in membrane science, material fabrication, or transport modeling.
– Excellent written and oral communication skills in English.
– Motivation to work independently as well as collaboratively within an international research team.
– A strong publication record and a commitment to high-quality research.
Ideal applicants are independent thinkers who value diversity and are eager to contribute to a collaborative, interdisciplinary environment.
Application Process
Applications are accepted exclusively through ETH Zurich’s online application portal. Email or postal submissions are not considered. The application package should include:
– Curriculum vitae (including a list of publications)
– Cover letter outlining research interests and relevant expertise
– Names and contact information for three references
– Academic transcripts (Master’s and PhD), including grade point average and English translations where applicable
Applications are evaluated on a rolling basis. The start date for the position is flexible, ideally in spring or summer 2026. For further details and to apply, visit the official job posting:
https://jobs.ethz.ch/job/view/JOPG_ethz_WIW76aYUKG4alfPUIz
Conclusion
ETH Zurich offers an exceptional environment for postdoctoral researchers seeking to drive innovation in membrane separations. With access to world-class facilities, mentorship from leading experts, and a culture that values diversity and sustainability, this opportunity is ideal for those committed to making a significant impact in science and society. Interested candidates are encouraged to apply promptly and to explore similar opportunities to further their academic and professional goals.
Questions & Answers
Question: What makes ETH Zurich an attractive destination for postdoctoral researchers?
ETH Zurich is globally recognized for its excellence in science and engineering, offering a collaborative and international environment, state-of-the-art research infrastructure, and a strong commitment to sustainability and diversity.
Question: What are the main research themes in the Membrane and Interfacial Science Lab?
The lab focuses on the synthesis, characterization, and modeling of advanced membrane materials for applications in carbon capture, gas purification, and water treatment, aiming to develop more energy-efficient and sustainable separation technologies.
Question: Who will supervise the postdoctoral researcher?
The position will be supervised by Prof. Anthony Straub in the Department of Mechanical and Process Engineering at ETH Zurich.
Question: What qualifications are required to apply for this postdoctoral position?
Applicants should hold a PhD in a relevant discipline (e.g., Chemical Engineering, Materials Science, Environmental Engineering, Mechanical Engineering, Chemistry, or Physics) and have demonstrated experience in membrane science or related fields.
Question: How can I apply for this position?
Applications must be submitted online via the ETH Zurich job portal. Detailed instructions and the application link are available at: https://jobs.ethz.ch/job/view/JOPG_ethz_WIW76aYUKG4alfPUIz
Question: What is the application deadline?
Applications are evaluated on a rolling basis, so early submission is encouraged.
Question: What benefits are offered to postdoctoral researchers at ETH Zurich?
ETH Zurich provides a competitive salary, social benefits, scientific mentoring, leadership development opportunities, and access to international research networks.
—
Want to calculate your PhD admission chances? Try it here:
https://phdfinder.com/phd_admission_chance_calculator/
We’re an independent team helping students find opportunities.
Found this opportunity helpful? Support us with a coffee!
