Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
Your task will be to use electrochemical impedance spectroscopy and other complimentary characterisation techniques to provide holistic and detailed performance characterisation of new hierarchical
-
Job Description We are pioneering true 3D culture of human liver models by high-resolution 3D printing to transform disease modeling and drug development. Join a project combining next-generation 3D
-
Job Description These days, the inner workings of molecules and materials can be probed and modelled by advanced simulation tools on modern computer architectures. However, the routine applications
-
profile of CoaST at conferences, meetings etc. You are high performing, visionary and thrive on turning exiting challenges into solutions based on curiosity and an open mind for entering new paths when
-
(e.g. Zemax); Documented experience in fiber fabrication in fiber draw towers (silica, soft glass and polymer draw towers), including multimaterial fibers; Documented experience working with high power
-
of these models into simulations of injection risks and storage performance. The recruited postdoc will focus primarily on thermodynamic modeling, working closely with colleagues engaged in experimental and
-
materials to address the global energy problem. To benchmark a new material experimentally, we must be able to detect reaction products with high sensitivity and good time-resolution. In close collaboration
-
of the position include: Perform electrochemical characterization (Galvanostatic charge/discharge, Electrochemical Impedance Spectroscopy etc.) on zinc-air battery cells. Develop specialized in situ cells, which
-
, electronics, and neuromorphic computing. You will join an international collaboration between DTU, EPFL, and Max Planck, gaining unique opportunities to work at the intersection of materials science, physics
-
challenges, particularly in low- and middle-income countries (LMICs) where surveillance systems are often limited or lacking. Traditional laboratory-based methods, widely used in high-income countries