Sort by
Refine Your Search
-
Category
-
Field
-
charge flow, aqueous proton transport or energy conversion. The candidate will work on the development and application of novel transient infrared spectroscopic techniques with high time resolution
-
. What will be your tasks? In the framework of the Collaborative Research Centre (CRC) TRR 181 “Energy Transfers in Atmosphere and Ocean”, numerical ocean model analysis methods are to be developed in
-
spectroscopic properties and study intrinsically disordered proteins by single molecule Förster Resonance Energy Transfer (FRET). The position is initially limited to 1 year with the potential for extension
-
of Modelling the transformation and circularity in energy-intensive industries (steel, cement, and plastics). The position is initially funded for 3 years(Postdocs) or until December 2027 (PhD candidates
-
the transformation and circularity in energy-intensive industries (steel, cement, and plastics). The position is initially funded for 3 years(Postdocs) or 4 years (PhD candidates). Extensions are envisaged and rely
-
working with cell culture and/or organoids would be appreciated Very high motivation and willingness for interdisciplinary cooperation in a diverse research environment Excellent English (in speaking and
-
senescence and reprogramming. The candidate will use various experimental techniques such as molecular cloning and cell culture work, additionally state-of-the-art technologies including genomic engineering
-
Cottbus) and Prof. Dr. Matthias Kalkuhl (also with MCC and University of Potsdam) that aims to understand political economy realities and barriers to energy transformations. They will work closely with
-
transport or energy conversion. The candidate will work on the development and application of novel transient soft-x-ray spectroscopic techniques with high time resolution. This will include the application