Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
-
Field
-
from 150 nations, located on the border where Switzerland, Germany, and France meet. A large number of institutions for biomedical research, with numerous possibilities for training, networking, and
-
conditions are internationally highly competitive and according to ETH standards . We’re looking for candidates interested in: Full-stack software development, with a focus on mobile applications Health
-
upcoming areas off the beaten paths. Our three main areas of research are machine learning, distributed systems, and theory of networks. Within these three areas, we are currently working on several projects
-
open-source platform redefining how viral sequence data is shared and governed globally, powered by the modular, federated backend database software Loculus This is a computational position focused on
-
to understanding the innervation landscape of peripheral tumors and its role in immuno-oncology. We are particularly interested in candidates who have previously worked on cellular and molecular networks underlying
-
dependable network within the offshore and maritime industries Excellent communication skills, strong negotiation abilities, and intercultural competence, convincing personality with a talent for winning
-
community and will be provided with ample opportunities for professional growth and networking. chevron_right Working, teaching and research at ETH Zurich We value diversity In line with our values , ETH
-
and biomedical science. Job description Design and develop mechanical and electronic subsystems for an automated bioprinting platform Integrate hardware and software systems for coordinated control and
-
Developmental Medicine will probe and integrate multi-omic data sets (i.e. genetic, epigenetic, transcriptional and metabolomic data) to create computational models defining the molecular signatures underpinning
-
privacy. However, un-conditional security requires the use of entanglement to establish non-classical correlations between communicating nodes, thus robust quantum networks and a future quantum internet