Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
- Chalmers University of Technology
- Uppsala universitet
- Linköping University
- Lunds universitet
- KTH Royal Institute of Technology
- University of Lund
- University of Borås
- Högskolan Väst
- IFM/Linköping University
- Karolinska Institutet (KI)
- Lulea University of Technology
- Mälardalen University
- SciLifeLab
- Stockholms universitet
- Swedish University of Agricultural Sciences
- Umeå universitet stipendiemodul
- 6 more »
- « less
-
Field
-
algorithms. Our research integrates expertise from control theory, machine learning, optimization, and network science, spanning diverse application domains such as energy systems, biomedical systems
-
on methodological development in cryo-electron microscopy (cryo-EM), particularly in image reconstruction and 3D volumetric analysis of macromolecular structures. Rather than aiming to incrementally optimize existing
-
from control theory, machine learning, optimization, and network science, spanning diverse application domains such as energy systems, biomedical systems, neuroscience, and safety and security
-
to control the electronic properties of organic semiconductors through chemical doping. The work will combine molecular and materials design with advanced structural, spectroscopic, electrical, and
-
engineering, including performance and conceptual design Experience in energy systems modelling and mathematical optimization Programming skills in, for example, Matlab, Python, C++, Fortran, or equivalent
-
planar optical waveguide structure. The current project focuses on advancing a surface-sensitive, label-free waveguide scattering microscopy (WGSM) platform for nanoparticle characterization in advanced
-
are driving disease progression and relate these to relevant biological structures. The project is funded by ELLIIT, one of Sweden’s strategic research initiatives, and is part of a collaboration with
-
optical waveguide structure. The current project focuses on advancing a surface-sensitive, label-free waveguide scattering microscopy (WGSM) platform for nanoparticle characterization in advanced therapies
-
provide insights into where energy expenditure is highest and where efficiency improvements can have the greatest impact. By doing so, this work aims to contribute to a better understanding and optimization
-
for an expert in mass-spectrometry based proteomics who will work alongside our biochemists and microbiologists on detecting and optimizing casein PTMs . Who we are looking for The following requirements