Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
discovery and basic research to clinical translation. The postdoc fellow will be part of the Organs-on-Chip Technologies Lab (Prof. O. Guenat), which integrates microfluidic engineering with advanced cell
-
and guidance system for these micro-swimmers, interacting with real-time optical visualization in a microfluidic network. • Study of the fidelity of the movement of micro-swimmers to the set trajectory
-
microfluidic devices. The position will follow the guidelines outlined below. For more details about our group, please refer to the following webpage. https://www.oist.jp/research/buribushi/yokoyama [Work
-
of microscopy company Oxford Nanoimaging ( https://oni.bio/ ). The group is located in the new Kavli Institute for Nanoscience Discovery ( https://kavlinano.ox.ac.uk/ ), a vibrant environment for
-
the development of biosensing strategies in microfluidic systems. Additional Information Work Location(s) Number of offers available1Company/InstituteINESC MNCountryPortugalGeofield Contact City Lisbon Website http
-
(https://oni.bio/ ). The group is located in the new Kavli Institute for Nanoscience Discovery (https://kavlinano.ox.ac.uk/ ), a vibrant environment for interdisciplinary research at the interface
-
developing an innovative microfluidic platform for human iPS cell-based neurodegenerative disease modeling. The project focuses on differentiating iPS cells to neurons, glia and other cell types involved in
-
PhD or a PhD near completion in cell biology, bioengineering, bioscience, molecular biology or a related field. Candidates should have extensive experience of working with microfluidic chips, mammalian
-
expression using microfluidic analysis. Applications – Applicants should send the following documents in PDF for luiz.stasi@unesp.br (deadline December 12, 2025): 1. A cover letter (maximum two pages A4
-
regulatory compliance into the design of microfluidic assays. Model and optimise the separation of blood cells and blood flow properties within microfluidic devices. Model and optimise red blood cell and