Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
developing advanced, technologically driven solutions for integrated monitoring and decision-making systems for complex structures and infrastructures. We invite applications for a postdoctoral research
-
, present in various living organisms (e.g., mussels), have demonstrated unprecedented adhesive properties under wet conditions, biocompatibility, low toxicity and low cost/scalable processes. These excellent
-
the volcanoes of the Eastern Caribbean as a focal point and, with our international partners, will demonstrate how this knowledge can improve monitoring and warning systems in the Eastern Caribbean. The
-
), structural health monitoring, and smart manufacturing systems Design and execute experiments involving ultrasonic, electromagnetic, and other material testing techniques Develop and apply computational models
-
molecules, present in various living organisms (e.g., mussels), have demonstrated unprecedented adhesive properties under wet conditions, biocompatibility, low toxicity and low cost/scalable processes
-
mark nationally, continentally, and globally. Thanks to its prestigious architectural landscape and modern equipment, the University offers premium conditions for a desirable lifestyle, only 70 km away
-
of faculty in the Department of Chemistry on the UMN Twin Cities campus. This is a standing posting to remain open throughout the 2025-2026 academic year. This posting is not regularly monitored
-
related disciplines Research experience in use of hydrologic models Demonstrated experience with field monitoring of hydrology or soil parameters Demonstrated excellent written and oral communication skills
-
National Aeronautics and Space Administration (NASA) | Fields Landing, California | United States | about 3 hours ago
quantification of geologic CO2 and CH4 emissions on large scales are challenged by the remoteness of emission sites, inaccurate attribution of emission sources, emission variability, and insufficient monitoring
-
new chemistry in functional materials for diverse applications. Our primary focus (funded projects) is PFAS-related chemistry, aiming to develop advanced monitoring and treatment technologies. We