Sort by
Refine Your Search
-
Listed
-
Employer
- ETH Zurich
- Nature Careers
- University of Basel
- ETH Zürich
- University of Geneva
- University of Zurich
- ;
- Academic Europe
- ETH ZURICH
- Empa
- Friedrich Miescher Institute for Biomedical Research
- Graduate Institute of International and Development Studies
- Paul Scherrer Institut Villigen
- Swiss Federal Institute for Forest, Snow and Landscape Research WSL
- University of Bern
- 5 more »
- « less
-
Field
-
to developing next-generation microbial technologies for the degradation of persistent pollutants like PFAS. Using environmental isolates and advanced microbial screening, we engineer bacterial consortia for use
-
and development. By preventing, diagnosing and treating a range of health disorders, our products and services have enhanced the health and quality of life of people around the world. Specifically, we
-
expected to contribute to the fundamental theoretical, technological and interdisciplinary development of disciplines related to dynamical systems and control and to strengthen the leading position of ETH
-
In this role, you will lead projects centered on the design and development of innovative experimental testing systems and their digital counterparts. You will be responsible for the conception
-
funds and published under the DORA principles. Lead a research group, coordinate its research with that developed by other groups of the Department, in compliance with legal and ethical regulations and in
-
and/or the University of Zurich. Wyss Zurich supports projects focusing on developing treatment protocols and clinical therapies, as well as novel technologies and intelligent systems in the emerging
-
to the fundamental theoretical, technological and interdisciplinary development of disciplines related to dynamical systems and control and to strengthen the leading position of ETH Zurich and D-MAVT in this field
-
through the development of strategies for long-term data quality improvement and data curation, including persistent identifiers for organizations, researchers and funding Supporting the writing of reports
-
microfluidic platform for studying bacterial lung and bladder infections and testing new antibacterial drugs is currently developed. The platform includes a microfluidic system for culturing advanced in-vitro
-
. Dagmar Iber, which uses advanced imaging and computational tools to develop data-driven, mechanistic models of biological systems. Located in Basel, the Department of Biosystems Science and Engineering (D