Dresden University of Technology (TUD), Germany invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Dresden University of Technology (TUD), Germany.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD student / Postdoc
The successful applicant will join the research project “Exploring the Morphogenesis of Omniphobic Nano-Ornamentations on the Springtail Cuticle”, funded by the German Research Foundation (DFG). This project investigates the biological formation of nano-scaled ornamentation on the surface of springtails exoskeleton, which renders its surface omniphobic, repelling both hydrophobic and hydrophilic liquids.
The Politi group studies arthropod exoskeletons as a model to unravel the molecular mechanisms underlying bio-composite formation in biology. Springtails, Collembola (Entognatha), are soil-dwelling arthropods within the hexapod lineage. They play a crucial ecological role in soil formation. Springtails adopted epidermal respiration when transitioning to terrestrial life about 450 million years ago, a respiration mode that demands robust mechanisms to prevent wetting and repel the adhesion of organic, inorganic and microbial matter from the exoskeleton.
The successful applicant will use state-of-the-art biochemical, genomic, transcriptomic and cell biological tools to understand the formation of cuticular ornamentation. The project is a collaboration between B CUBE (Yael Politi), IPF (Ralf Helbig, Carsten Werner) and the Senckenberg Institute (Clement Schneider).
Deadline : March 25, 2026
(02) PhD Degree – Fully Funded
PhD position summary/title: Emergent properties of chromatin (in collaboration with the Schiessel group)
During the cell cycle, chromatin undergoes dramatic changes on its material properties that are functionally key. In metaphase, chromatin needs to be stiff to sustain microtubule segregating forces during cell division. As the cell cycle progresses to interphase, chromatin decondenses and becomes loose to enable key processes such as transcription, DNA damage repair, replication, and the establishment and maintenance of epigenetic marks. These properties are actively regulated by molecular processes such as DNA-protein co-condensation and loop extrusion. In this project we aim to understand how emergent properties of chromatin arise from such processes, how are regulated during the cell cycle and how they may play a role in functional processes such as the maintenance of epigenetic marks or transcription. The Schiessel group has used their expertise in computer simulations on small model chromosomes to demonstrate that polymer-assisted condensates are capable of maintaining the epigenetic state through 40 generations, thus reaching the Hayflick limit. The Brugués group uses their expertise in single molecule approaches and cell free extracts to test these ideas by using optical tweezers where a full chromosome and single DNA strands can be held in place and stretched in the cytoplasm from Xenopus egg extracts, a system in which replication can be induced. The successful candidate will address the following questions:
- Can we visualize experimentally condensates forming along stretched chromosomes?
- What happens to the number and sizes of condensates as one increases the tension and how does it depend on the epigenetic sequence written along the string of nucleosomes?
- How do chromatin material properties are established during the cell cycle?
Deadline : March 20, 2026
View All Fully Funded PhD Positions Click Here
(03) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD student
The successful candidate performs scientific research on mechanical metamaterials with a particular focus on modeling and simulation of the deformation and failure behavior under influence of damage and extreme loading conditions. Both data- and physics-based modeling approaches are of interest in this context. The obtained results are to facilitate the inverse design of novel resilient metamaterials. The successful candidate participates actively in the qualification program and general scientific activities of D³. More information can be found at www.tud.de/ing/dcube
Deadline : March 18, 2026
(04) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD Student
Contribution to the ERC Synergy Grant “POCOCOP (Polynomial-time computation: opening the black boxes in constraint problems)”. This includes the systematic exploration of polynomial-time tractability in the field of constraint satisfaction and its extensions, in particular promise CSPs, valued CSPs, and CSPs over infinite domains. The work is embedded in a larger research team and involves exchange visits with the partner universities in Prague and Vienna.
Deadline : March 26, 2026
(05) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD student
scientific development of synthetic 2D materials for electronics
— exchange and collaboration with a diverse team of scientists from the REC2 Cluster, in particular with those
from the fields of sustainability/natural sciences
Deadline : March 10, 2026
Polite Follow-Up Email to Professor : When and How You should Write
Click here to know “How to write a Postdoc Job Application or Email”
(06) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD Student
starting as soon as possible. The position comprises 50% of the full-time weekly hours and is limited to three years (max. until the end of the DFG Emmy Noether project on February 28, 2029). The period of employment is governed by the Fixed Term Research Contracts Act (Wissenschaftszeitvertragsgesetz – WissZeitVG). The position offers the chance to obtain further academic qualification (usually PhD).
Deadline : April 13, 2026
(07) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD Student
Problem Definition: The influence of emissions caused by ablation/demise on the atmosphere and is directly dependent on the propagation of those residuals along the flight path. The investigation of the temporal and spatial distribution of the generated emissions in the atmospheric layers after the re-entering launch vehicle has passed through is therefore crucial for drawing conclusions about their climate impact.
Deadline : March 31, 2026
(08) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD Student
Problem Definition: The influence of rocket engine emissions on the atmosphere and thus the climate is directly dependent on the propagation of the engine plume along the flight path. The investigation of the temporal and spatial distribution of the exhaust gases in the atmospheric layers after the launch vehicle has passed through is therefore crucial for drawing conclusions about their climatic influence.
Deadline : March 31, 2026
Click here to know “How to Write an Effective Cover Letter”
(09) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD Student
- conduct scientific research and teaching at the Chair, with a particular focus on rail vehicle maintenance and system optimisation
- acquire and participate in national and international research projects
- publications in international peer reviewed journals and conferences
- contribute to the planning and organisation of teaching activities
- assist in the development and expansion of the Chair’s laboratory equipment and facilities
- tasks of academic self-governance
Deadline : March 16, 2026
(10) PhD Degree – Fully Funded
PhD position summary/title: Research Associate / PhD Student
- scientific research in the DFG-funded project “Chat4Data”
- creation and maintenance of a data corpus for scientific geographic question answering
- design and implementation of automated test strategies for (conversational) geographic question answering systems on geographic knowledge graphs
- user-centered evaluation of conversational (geographic) question answering systems
Deadline : March 23, 2026
Connect with Us for Latest Job updates
About Dresden University of Technology (TUD), Germany – Official Website
TU Dresden (for German: Technische Universität Dresden, abbreviated as TUD), also as the Dresden University of Technology, is a public research university in Dresden, Germany. It is the largest institute of higher education in the city of Dresden, the largest university in Saxony and one of the 10 largest universities in Germany with 32,389 students as of 2018.
The name Technische Universität Dresden has only been used since 1961; the history of the university, however, goes back nearly 200 years to 1828. This makes it one of the oldest colleges of technology in Germany, and one of the country’s oldest universities, which in German today refers to institutes of higher education that cover the entire curriculum. The university is a member of TU9, a consortium of the nine leading German Institutes of Technology. The university is one of eleven German universities which succeeded in the Excellence Initiative in 2012, thus getting the title of a “University of Excellence”. The TU Dresden succeeded in all three rounds of the German Universities Excellence Initiative (Future Concept, Graduate Schools, Clusters of Excellence).
Disclaimer: We try to ensure that the information we post on VacancyEdu.com is accurate. However, despite our best efforts, some of the content may contain errors. You can trust us, but please conduct your own checks too.
Related Posts
