Sort by
Refine Your Search
-
Listed
-
Category
-
Country
- United States
- France
- United Kingdom
- Portugal
- Sweden
- Germany
- Poland
- Singapore
- Spain
- Belgium
- Netherlands
- Norway
- Italy
- Switzerland
- Canada
- China
- Australia
- Czech
- Denmark
- Hong Kong
- United Arab Emirates
- Austria
- Luxembourg
- Malta
- Saudi Arabia
- Slovenia
- Finland
- Morocco
- Greece
- Ireland
- Japan
- Macau
- Romania
- Slovakia
- Taiwan
- 25 more »
- « less
-
Program
-
Field
-
cell-derived muscle models or 3D culture systems (including physiological hypoxia) is a plus. Experience in biochemical and immunological mechanisms of immune-suppression Position Type Research
-
simulation software modelling the dynamic behavior of dislocations (DDD) in 3 dimensions, coupled with a spectral solver based on FFT. The procedures must analyze the simulated 3D microstructures to compare
-
This KTP project will bring together the collective expertise of Labskin Ltd and Aston University to develop the first immune-competent 3D model of human skin (i.e. skin incorporating immune cells
-
university guidelines and available funding. FTE: Varies based on assignment Retirement Eligibility: Eligibility based on semesterly assignment, for more information visit https://hr.untsystem.edu/benefits
-
management and finite element modelling. Applicants who are in their final year of the first degree study are also encouraged to apply and will be initially employed as RSA. The University of Malta is an
-
Website: https://med.stanford.edu/stankovic-lab.html (link is external) https://hellerlab-stanford.net/ (link is external) How to Submit Application Materials: Please send the following materials in a
-
Skip to Main Content Press Control+M to start dragging object ptnbsid=G7jAs5Wkj9I7vH7buW%2f219O9GnY%3d Back Accessibility Enable Screen Reader Mode Keyboard Shortcuts Accessibility Help Job
-
., food processing, bioconversion and fermentation processes) Self-supervised learning for multimodal sensor data (e.g., spectroscopy, hyperspectral imaging, 3D point clouds, and other high-dimensional data
-
covalent networks, supramolecular materials, light-responsive systems, and 3D-printable bioinks to create controlled culture environments for organoids and other advanced 3D in vitro models. These in vitro
-
at the finest scale to create impact on a global scale. For more information on the Weiss laboratory: https://www.lsi.umich.edu/science/our-labs/weiss-lab Job Summary Please note: This position is term-limited