The newly founded graduate school ‘Tailored Scale-Bridging Approaches to Computational Nanoscience’ (DFG RTG 2450) addresses the development and application of multi-scale approaches to the scientific challenges of friction, materials aging, material design and biological function. In detail, the specific projects will focus on the problems of friction between inorganic and biological materials, reactions on semiconductor surfaces, problems of electron and exciton migration in organic electronics, and biochemical reactions in proteins undergoing large structural changes. To tackle these problems, methods of ab initio quantum chemistry, force-field and coarse-grained approaches up to phenomenological approaches will be combined. These complex multi-scale frameworks will utilize work-flow engineering on high-performance computing architectures.
We are seeking 15 PhD researchers with strong backgrounds in physical/theoretical chemistry, computational physics/chemistry, computational materials science, applied mathematics or related areas, and one postdoctoral researcher with strong computational skills in the development of multiscale workflow engineering and its application to virtual materials development. We expect the ability and desire to work in interdisciplinary teams, combining the expertise of the different participating laboratories.
The graduate school, and all of the PhD positions start on April 1, 2019.
Funding: E13 75% TV-L for PhDs, E13 100% TV-L for Postdoc.
Your application file should include
- motivation letter
- curriculum vitae (CV)
- copies of academic degrees and transcripts of records
- preferences of projects (optional)
- list of publications
- recommendation letter
- Document indicating your proficiency in written and spoken English
KIT is an equal opportunity employer. Women are especially encouraged to apply. Applicants with disabilities will be preferentially considered if equally qualified.
Applications and Inquiries should be directed via email to sabine.holthoff∂kit.edu.