-
through resonant excitation of specific bonds. It will revolutionize the field of biopolymer processing beyond cellulose and yield fundamental insights into supramolecular structure and dynamics in
-
collaboration Relevant experience with programming languages (preferably Python) You work independently, in a structured and reliable manner. You are communicative, flexible and able to work under pressure
-
for challenging mathematical problems and interdisciplinary collaboration Relevant experience with programming languages (preferably Python) You work independently, in a structured and reliable manner. You are
-
dynamics. The planned activities integrate tracing the fate and the transformation of organic C into indicative organo-mineral pools and aggregate structures. This will be complemented by modern spectrometry
-
Analyzer and Sorter, single-cell mRNA-sequencing etc.) • A cutting-edge highly funded research project in immunology (ERC-CoG funded lab) • A highly dynamic international young team in a thriving research
-
insights into the dynamic distribution patterns of human tissue resident T helper cells across space and time. Topic: Dissecting the body-wide spatio-temporal organisation of human resident T helper cells T
-
24.02.2020, Wissenschaftliches Personal The research group “Fluid Dynamics of Complex Biosystems” headed by Prof. Dr. Natalie Germann has an open PhD position in the field of experimental rheology