Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
(GGSL). The GGSL offers a training program to help carry out this research. Your training program will be tailored to your interests, and needs for development. During your appointment, you will publish
-
supervisors, you will conduct independent scientific research resulting in a dissertation. You will be accommodated at the Groningen Graduate School of Law (GGSL). The GGSL offers a training program to help
-
-year PhD program, you will join a collaborative research team applying cutting-edge methods from Experimental/Behavioral Economics alongside modern macroeconomic modelling techniques (e.g. DSGE). You'll
-
skilled in computational chemistry and data-driven approaches to develop new catalytic asymmetric reactions. World-leading industrial partners with a wide range of interests will provide advice on which
-
academic research groups with expertise in experimental catalyst development and theoretical groups skilled in computational chemistry and data-driven approaches to develop new catalytic asymmetric reactions
-
- 22:00 (UTC) Type of Contract Temporary Job Status Not Applicable Hours Per Week 38.0 Is the job funded through the EU Research Framework Programme? Not funded by a EU programme Is the Job related to
-
background in cosmology, astrophysics, physics, mathematics and/or computer sciences, who seek to obtain a Joint-PhD degree from the University of Groningen and Tartu Observatory. To be eligible to apply, a
-
in collaboration with diverse partners and stakeholders, contributing not only to academic output but also to visible societal change. The PhD project is part of the “Wad Gaat Om” program, which aims
-
only to academic output but also to visible societal change. The PhD project is part of the “Wad Gaat Om” program, which aims to sustainably reduce plastic waste and usage in the Wadden Sea area through
-
together academic research groups with expertise in experimental catalyst development and theoretical groups skilled in computational chemistry and data-driven approaches to develop new catalytic asymmetric