Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
-
Field
-
rocks), - Geochronological indicators: isotopic dating of carbonates. To carry out this study, a broad range of analytical techniques will be employed, including: SEM-EDX, TEM-EDX, FIB, STXM-XANES
-
in microscopic and spectroscopic characterization techniques (FTIR, UV-vis, EA, TGA, NMR, SEM, TEM, FIB, etc.). Experience in vitro experiments and biochemistry Excellent communication and writing
-
microscopy tools such as SEM/EDX, FIB and TEM. Also use dimensional metrology for metal loss evaluation. Thermodynamics calculations using FactSage software will also be used. The candidate will be based
-
particle geometry in three dimensions using slice-and-view FIB-SEM analysis. Determining mineralogical and chemical properties (composition, zoning, crystallographic orientation) using complementary electron
-
to state-of-the-art infrastructure, including the cryo-EM facility (JEOL cryoARM300, screening TEMs; cryo-FIB-SEM planned for 2026) Access to state-of-the-art computing infrastructure for image
-
/or nanocpasules. Experience in microscopic and spectroscopic characterization techniques (FTIR, UV-vis, EA, TGA, NMR, SEM, TEM, FIB, etc.). Experience in vitro experiments and biochemistry Personal
-
SFI FAST: PhD position in Microstructure/texture evolution during extrusion of scrap-based Aluminium
, using advance equipment like SEM, TEM, P-FIB, etc. A strong academic record, with excellent analytical and problem-solving skills. Experience in using relevant modelling methods for material or process
-
criteria Knowledge and testing skills in material characterization and microstructural analysis of aluminium alloys, using advance equipment like SEM, TEM, P-FIB, etc Experience in the design and development
-
microenvironment in these foraminifera. Novel techniques including high-pressure freezing and fluorescent/ cry-FIB SEM imaging will be applied and will complement experiments at the NIOZ. Handling living
-
to reduce the stack pressure required for cycling using functional interlayers. You will use techniques such as EIS, solid-state NMR, FIB-SEM, and various electrochemical methods to characterize materials and