Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
(2014). https://doi.org/10.1126/science.1253920 [2] An RNA origami robot that traps and releases a fluorescent aptamer. Science Advances (2024). https://doi.org/10.1126/sciadv.adk1250 Your qualifications
-
quantitative characterization of mixed defined microbial communities, including adaptive evolution. This project is a collaboration with chemists to produce high quality carbon materials from waste CO2 . Systems
-
for next-generation nature monitoring. Collaborate closely with ongoing initiatives in remote sensing and with the National Topic Centre for Terrestrial Habitats and Species, contributing to the development
-
foods and nutrients, measure dietary intake and body composition by gold standard methods, collect and analyze blood samples and conduct various other assessments of health and development. Read more
-
Postdoctoral position in the development of an AI-based phenotyping system for high-throughput sc...
Position overview We are seeking applicants for an 18-months postdoctoral fellowship focusing on the development of an AI-based phenotyping system for high-throughput screening for aphid
-
the department. We also prioritise social events and an informal and welcoming working environment. A working environment with a focus on professional development and well-being There are many good reasons why you
-
) development, physicochemical property tuning, and scaffold modification. Applicants must demonstrate a strong track record in medicinal chemistry. The ideal candidate has the following competences and skills: A
-
proteome coverage by exploiting negative ion mode and advanced fragmentation methods. Within this framework, the postdoc will drive method development and high-level experimental MS studies, including
-
Position overview We are seeking applicants for an 18-months postdoctoral fellowship focusing on the development of an AI-based phenotyping system for high-throughput screening for aphid
-
applications for a unique postdoctoral position focused on the development of digital models of the human colon and surrounding organs to simulate their behaviour during colonoscopy procedures. The successful