33 structures-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"https:"-"LGEF" positions at Technical University of Munich
Sort by
Refine Your Search
-
structural modeling, protein engineering and directed evolution, ML approaches of biomolecular design, high-throughput screening technologies, biochemical and biophysical characterization of proteins
-
- Ideally, knowledge of driving simulation software (e.g., SILAB) - Experience in the design, implementation, and evaluation of empirical studies - Ability to work in a team, structured approach to work, and
-
expected to develop and pursue your own scientific ideas and concepts. We provide structured supervision, active mentoring, and full support for high-quality scientific publishing. Our work is regularly
-
Python and common deep learning frameworks (PyTorch) • Excellent communication skills in English (German is a plus) • Independent, structured working style and experience in supervising students Preferred
-
these, shielding approaches, which enforce safety constraints by filtering or correcting control actions, offer a promising path toward safe-by-construction autonomy. This PhD project aims to develop theoretically
-
excitation of specific bonds. It will revolutionize the field of biopolymer processing beyond cellulose and yield fundamental insights into su-pramolecular structure and dynamics in biomaterials. About us Our
-
journal clubs and project-related meetings Hands-on experience with advanced molecular and cellular techniques -- Candidate Profile We are looking for a student who demonstrates: Structured Work Approach
-
processing parameters. You will develop machine learning models to analyse experimental datasets and uncover structure-function relationships that determine membrane performance. By combining statistical
-
project, we are looking for a strong candidate to contribute to the development of quantum algorithms and applications, focusing on quantum walks and quantum machine learning on graph structures. Your
-
Analysis of Electronic Structure Methods for Molecules and Materials. About the PhD Project: The goal of the project is the development of a posteriori error estimates for state-of-the-art numerical methods