Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
. International young and experienced scientists from various disciplines develop interactive materials based on the principles of nature. It is a location at which people with different talents, experiences and
-
PhD Position (m/f/d) - Atomic Layer Deposition (ALD) of transition metals for biomedical application
The Leibniz Institute for Solid State and Materials Research Dresden e. V. (IFW Dresden) conducts modern materials research on a scientific basis for the development of new and sus-tainable
-
Access to training, workshops, and career development opportunities Enrolment in the GAUSS graduate program (University of Göttingen) Supervision by an interdisciplinary Thesis Advisory Committee
-
. The successful candidate will receive careful mentorship both from the supervisor and from other peers through a dedicated mentorship program. Technical queries should be directed to Benedikt Jahnel
-
machine learning/artificial intelligence methods in combination with complex network analysis tools to predict and model interactions between food and biological systems Further scientific development
-
measurements Laboratory processing of soil samples, including extraction, sorting, and preparation of soil fauna Independent development and implementation of new analytical and examination methods Digitization
-
environment. The candidate will be given the opportunity to develop a doctoral thesis with extensive support through the RTG2413 (www.synage.de ) and the CBBS graduate program (gp.cbbs.eu ). Your profile
-
development. It is one of the world's leading research institutions in its field and offers natural and social scientists from around the world an inspiring environment for excellent interdisciplinary research
-
beyond. For several years, the institute has placed a special emphasis on digital humanities and the expansion of digital resources. The goal is to further develop national and international collaborations
-
differentiation into retinal 3D organoids to model tumor development in retinoblastoma. We also employ CRISPR-based genomic editing to investigate establishment of DNA methylation at the imprinted locus on human