Sort by
Refine Your Search
-
Listed
-
Employer
- Chalmers University of Technology
- KTH Royal Institute of Technology
- Chalmers tekniska högskola
- Linköping University
- Lunds universitet
- Uppsala universitet
- Chalmers
- Chalmers tekniska högskola AB
- Jönköping University
- Linköping university
- Lulea University of Technology
- Luleå tekniska universitet
- Sveriges Lantbruksuniversitet
- University of Lund
- chalmers tekniska högskola
- 5 more »
- « less
-
Field
-
the fundamental links between molecular-level structure and dynamics and the macroscopic properties of materials. Our research focuses on energy-related materials for next-generation batteries, with special
-
-level structure and dynamics and the macroscopic properties of materials. Our research focuses on energy-related materials for next-generation batteries, with special emphasis on nanostructured electrodes
-
materials, with a focus on lattice-dynamical free energies, temperature-dependent vibrational properties, and magnon–phonon interactions using quantum mechanical methods. As postdoc, you will principally
-
very strong knowledge of DFT-based electronic structure and lattice dynamics methods (DFPT and/or AIMD-derived phonons), as well as experience in scientific programming and HPC environments. You are
-
in both lithium and sodium batteries. The goal is to understand how different design and material choices link to structure, dynamics and performance. A special focus is on solvent-free electrolytes
-
, forming these materials, and characterizing their properties and structure at different length scales. The project benefits from access to a wide range of advanced laboratory equipment and instruments, as
-
used. The cell chemistry and design differ from sodium to magnesium, calcium, and aluminum, but common to all is how different choices relate to the resulting structure, dynamics, and performance
-
maintenance and reinforcement strategies. The postdoc will lead work on extracting and analyzing pavement condition and traffic data, integrating them with climate and environmental datasets, and developing
-
. This includes questions about stability, critical in the design of plasma confinement devices. Modus operandi in the project is to make progress on these difficult question via structure-preserving numerical
-
, dynamic and brings together researchers from around fifty different nationalities as well as students from all over the world. This three-year postdoctoral position is in the Applied Geophysics research