Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
the date of hiring. 4. Work plan: 4.1. The main tasks to be performed under the grant will be: a) Optimization of pharmacodynamic assays for in vitro and in vivo testing. b) Conducting pharmacodynamic
-
, to advance the labs research goals. Develop new experimental approaches: Establish and optimize innovative methods such as live-cell imaging, biochemistry, or molecular biology to address key biological
-
proteins. Under the supervision of the project leader, your responsibilities will include: Establishing and optimizing cell culture protocols under sterile conditions (adherent or suspension eukaryotic cell
-
the development and testing of new materials. The work will involve reactor design and setup with gas flow capability and process optimization. Qualified candidates should have a Ph.D. in chemistry, physics
-
: 2025/11/30 11:59PM (posted 2025/08/04, listed until 2026/02/04) Position Description: Apply Position Description The Weierstrass Institute for Applied Analysis and Stochastics (WIAS) is an institute
-
, United States of America [map ] Subject Area: Computational Fluid Dynamics and Wave Propagation Appl Deadline: 2025/09/01 11:59PM (posted 2025/08/04, listed until 2025/12/19) Position Description: Apply
-
staff position within a Research Infrastructure? No Offer Description Opportunity code: Postdoctoral (RL2_SP3_WP3.6) Area/Theme: “Thermo-Fluid Dynamic Models and Flow Assurance / Optimization
-
National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 4 hours ago
of swarms are the additional complexity in coordinating the multiple elements. Recent advancements in swarm and constellation optimization have made the concept more tractable, and ripe for exploration as a
-
National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 4 hours ago
-body or highly nonlinear systems. The emphasis will be on how AI methods can both characterize and optimize trajectories within complex design spaces. Within this context, contingency planning
-
accumulation in the environment. Recent studies identified natural bio-converters, such as bacteria and fungi that contain efficient PET-degrading enzymes (PETases). These PETases are currently being optimized