Studentische Hilfskräfte, Praktikantenstellen, Studienarbeiten
23.03.2026
Studentische Hilfskräfte (m/w,d) - Professur für Holztechnologie
Ab sofort suchen wir studentische Hilfskräfte für die Mitarbeit an unseren Forschungsprojekten im Bereich der Holztechnologie. 8-15 Std./Woche bei freier Zeiteinteilung.
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Kontakt: kovryga@hfm.tum.de
22.03.2026
Studentische Hilfskräfte, HIWI - Driver for fieldwork
Kontakt: alejandra.parreno@tum.de
20.03.2026
Studentische Hilfskraft im Bereich Patente & Lizenzen
Das Hochschulreferat für Forschungsförderung und Technologietransfer (TUM ForTe) sucht zum nächstmöglichen Zeitpunkt zur Unterstützung des Bereichs Patente und Lizenzen motivierte und engagierte studentische Hilfskräfte (m/w/d). 10-20 Std./Woche bei freier Zeiteinteilung.
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Kontakt: Agne.Makris@tum.de
19.03.2026
Laboratory Research Practical
The research group of Prof. Dr. Gronnier, Plant Cell Biology at the TUM Weihenstephan campus, investigates cell biological aspects of plant immunity, development, and evolution. The group employs multidisciplinary approaches, including genetics, biochemistry, live-cell imaging, and high-resolution microscopy, to decipher fundamental aspects of cellular signal transduction, with a particular focus on the spatial and temporal regulation of membrane-based molecular processes.
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Kontakt: julien.gronnier@tum.de
09.03.2026
Master Thesis on Hyperspectral Photosynthetic Phenotyping of Winter Wheat
Kontakt: ying.yuan@tum.de
06.03.2026
Master thesis in Hydrology of the Biodiversity Exploratories
Kontakt: alejandra.parreno@tum.de
06.03.2026
HIWI Fieldwork in aquatic ecology
Kontakt: alejandra.parreno@tum.de
06.03.2026
Internship in Insect Ecology
Kontakt: alejandra.parreno@tum.de
05.03.2026
Pollution and Perception: How ozone degrades social discrimination systems in ants
Ants recognize their nestmates by “smelling” the waxy hydrocarbons on each other’s bodies—but ozone pollution can chemically alter these cues and confuse entire colonies. This project dives into the chemosensory mechanisms behind this phenomenon: How do antennal sensilla detect oxidized versus intact hydrocarbons? You will combine behavioral assays and chemical analysis to unravel how environmental change reshapes insect communication.
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Kontakt: jan.buellesbach@tum.de
05.03.2026
Chemical mimicry and sexual dimorphism in mites
Bulb mites show a dramatic male dimorphism, developing either into deadly fighters or harmless scramblers, raising the question of why the ill-equipped scramblers still persist in nature. This project explores whether scramblers escape aggression from fighter males by chemically mimicking females, using detailed analyses of their surface chemical profiles. By linking behaviour and chemistry, you will uncover the mechanisms that maintain these surprising alternative tactics.
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Kontakt: jan.buellesbach@tum.de