Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
(y.chen.22@bham.ac.uk ). Funding: The project is available through MIBTP funding program. For more details, please see: https://warwick.ac.uk/fac/cross_fac/mibtp/phd/supervisors/ychen References: Shropshire
-
Biotechnology and Bioprocesses, Membrane Technology, Chemicals and Materials, Resource Recovery, and Modeling & Artificial Intelligence. By harnessing its cross-cutting, interdisciplinary, and transformative
-
and outreach. Co-supervision of PhD students, MSc and/or exchange students. Active contribution to group meetings and discussions. Share this opening! Use the following URL: https://jobs.icfo.eu/?detail
-
researcher to join our team and contribute to a project, dedicated to the study of elastic wave transport in microstructured silicon membranes. The researcher will be primarily responsible for the design and
-
inner membrane, T7SSs assemble a large complex, responsible for translocating large, folded protein substrates. We have recently isolated and solved the structure of this fragile inner membrane assembly
-
adoption of the developed membrane technologies. To train the DC and enhance his/her expertise with regard to the PhD topic, the following secondments are planned: Planned secondments: (i) Viva, Seville
-
BBSRC Yorkshire Bioscience DLA Programme: Deciphering proton shuttling on the surface of biological membranes toward proton translocating channels School of Mathematical and Physical Sciences PhD
-
Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The PhD will be conducted at the European Membrane Institute (IEM, UMR5635
-
collaborative research experiences, experience writing proposals for user-facilities, and/or experience leading and mentoring graduate and undergraduate students. A PhD in relevant fields of energy storage
-
organelle biogenesis in metabolic health and disease. We use state-of-the-art approaches in cell biology, imaging, and in-cell structural biology to reveal nanoscale membrane architectures that drive lipid