Sort by
Refine Your Search
-
Listed
-
Employer
- Chalmers University of Technology
- KTH Royal Institute of Technology
- Umeå University
- Uppsala universitet
- Nature Careers
- Umeå universitet
- Umeå universitet stipendiemodul
- Chalmers tekniska högskola
- Högskolan Väst
- Karolinska Institutet (KI)
- Lunds universitet
- SciLifeLab
- University of Lund
- Jönköping University
- Linköping University
- Linköpings University
- Linnaeus University
- Linneuniversitetet
- Lulea University of Technology
- Luleå tekniska universitet
- Lund University
- Sveriges Lantbruksuniversitet
- 12 more »
- « less
-
Field
-
(highlight crystal growth experience, add images of grown crystals where relevant) contact information for two references Personal letter of 1 page, where you: describe your background and research experience
-
Protein Expertise Platform, X-ray, proteomics, NMR (850-400 MHz), cryo-EM and Biochemical Imaging Centre (confocal, SIM, FLIM, spinning disk, TIRF, STORM). Project description Autophagy is an evolutionarily
-
with characterization techniques (such as optical & scanning electron microscopy, image analysis, microhardness measurement etc.) Some of the experiments are expected to be conducted in close
-
scale. Characterization of ash interactions with products. Imaging and determination of chemical composition with SEM-EDX. Advanced image analysis for quantification of porosity. Multicomponent chemical
-
: The position demands a technical background in and skills related to: Detailed characterization of materials (morphology and microstructure by optical & scanning electron microscopy, image analysis
-
scale. Characterization of ash interactions with products. Imaging and determination of chemical composition with SEM-EDX. Advanced image analysis for quantification of porosity. Multicomponent chemical
-
techniques • Explainable AI/ML using visualization • AI/ML-empowered visual analytics of multivariate networks (network embeddings, …) • Large Language Model (LLM)-assisted visual analytics of text, images
-
world-leading research environment through the development of paradigm-shifting knowledge about bio-based wood adhesives in three research areas: raw materials and formulations, aspects of adhesives, as
-
approach combines behavioral experiments, psychophysiology, computational modeling, and brain imaging (fMRI). We offer a dynamic, international research environment where you can contribute to top-level
-
the development of hyperspectral 3D electric field imaging techniques in the THz spectral range, utilizing ultrashort lasers and nonlinear optical methods. The work will be conducted at KTH Laser Lab research