PhD student microbial interactions / 3D bioprinting (100%)
3D-bioprinting enables the fine-tuned spatial coordination of microbes in artificial biofilms to unlock emergent properties relevant for environmental applications, such as pollutant degradation. This way, the combination of species that normally do not coexist in natural settings may lead to novel technologies to tackle the problem of environmental pollution. In the frame of the Horizon Europe projects NYMPHE and MAR2PROTECT, we offer a PhD position dedicated to the exploration of microbial interactions and metabolic processes in artificial biofilms for the degradation of environmental pollutants, including the following tasks:
- 3D bioprinting of bacterial communities
- determining cellular physiology in 3D bioprinted structures
- evaluation of metabolic interactions
3D-bioprinted artificial biofilms can become a valuable platform to investigate interactions between community members and their habitat under controlled conditions. To help establish this platform, we are looking for someone with a broad scientific and technological interest.
You should have:
- MSc in microbiology or related fields
- knowledge of microbial metabolism and chemical analysis
- interest in interdisciplinary problem solving
- experience with 3D printing
The position is initially limited to one year and will be prolongated after a committee evaluation.
Wide range of university sports
Cultural programme of lectures, concerts, theatre and films
Established implementation of equal pay
Targeted promotion of doctoral projects
Annual working time (42 hours/week) with the option of part-time and teleworking
Mentoring programme for career development
Hofackerstrasse 30
4132Muttenz
Dr. Boris Kolvenbach, Scientific Assistant, Contact: +41 61 228 56 76, Write an email
Tanja Güdel, HR Manager, Contact: +41 61 228 58 67
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Tanja Güdel
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