Sort by
Refine Your Search
-
Listed
-
Employer
- University of Basel
- ETH Zürich
- Empa
- Ecole Polytechnique Federale de Lausanne
- Universität Bern
- ZHAW - Zurich University of Applied Sciences
- Zürcher Hochschule für Angewandte Wissenschaft ZHAW
- Academic Europe
- Prof. Dr. Ricarda Toerner
- University of Applied Sciences Northwestern Switzerland
- University of Bern
- University of Zurich
- 2 more »
- « less
-
Field
-
energy system models that incorporate a stronger Social Sciences and Humanities (SSH) perspective. By embedding societal dynamics, such models aim to capture a wider range of future uncertainties and
-
that explicitly incorporates protein–ligand dynamics. You will be responsible for: Designing and implementing innovative deep neural network models. Integrating physical principles and molecular modeling knowledge
-
modification of primary human immune cells (T cells and macrophages). Conduct in vitro validations using advanced models, including patient-derived organoids and co-culture systems. Perform in vivo validations
-
Nobel Laureates. Become part of our community! The research group of Prof. Knut Drescher at the Biozentrum of the University of Basel seeks to appoint a PhD student in molecular microbiology, with a focus
-
Nobel Laureates. Become part of our community! The research group of Prof. Knut Drescher at the Biozentrum of the University of Basel seeks to appoint a PhD student in molecular microbiology, with a focus
-
of systems. We develop methods to advance sustainable energy and chemical process systems from the molecular to the scale of the systems. Our work combines process analysis and system modeling to design
-
12 Sep 2025 Job Information Organisation/Company Prof. Dr. Ricarda Toerner Department Department of Chemistry Research Field Chemistry » Biochemistry Chemistry » Molecular chemistry Researcher
-
have since helped halve global mortality, but this progress is threatened by rising insecticide resistance. We build quantitative, data-driven models to forecast the spread and impact of resistance
-
Position: Bioprinting next generation functional tissues The field of tissue engineering and bioprinting is continually advancing to develop functional tissue models that more accurately mimic native tissue
-
of hip implants, as it can lead to particle-induced inflammation and implant loosening. Understanding the mechanisms and patterns of wear at the microscopic and molecular levels is therefore critical