Sort by
Refine Your Search
-
Listed
-
Employer
- Chalmers University of Technology
- IFM, Linköping University
- Linköping University
- Lunds universitet
- Umeå universitet stipendiemodul
- Chalmers tekniska högskola
- Chalmers tekniska högskola AB
- KTH Royal Institute of Technology
- Linköpings universitet
- Nature Careers
- SciLifeLab
- Umeå universitet
- University of Lund
- Uppsala universitet
- 4 more »
- « less
-
Field
-
, spectroscopy, and biomedical validation in clinically relevant environments. Key work assignments include: Design, fabrication, and optimization of high-performance plasmonic nanostructures and SERS substrates
-
project developing advanced SERS-based diagnostic technologies for rapid detection and characterization of wound infections. The work combines materials development, spectroscopy, and biomedical validation
-
particularly valuable. Documented experience in materials characterization, such as NMR spectroscopy, mass spectrometry, X-ray diffraction, X-ray photoelectron spectroscopy, vibrational spectroscopy, and
-
semiconductors, nanoparticles, or quantum dots. Experience with the synthesis of carbon dots is particularly valuable. Documented experience in materials characterization, such as NMR spectroscopy, mass
-
infrastructures organized in infrastructure platforms, of which the Vibrational Spectroscopy Core Facility (ViSp) is a central infrastructure for this project (https://www.umu.se/en/research/infrastructure/visp
-
project will be conducted in close collaboration with expert researchers in biogeochemistry and spectroscopy (Prof. Madeleine Ramstedt, https://www.umu.se/forskning/grupper/madeleine-ramstedt-lab/ ) and in
-
infrastructures organized in infrastructure platforms, of which the Vibrational Spectroscopy Core Facility (ViSp) is a central infrastructure for this project (https://www.umu.se/en/research/infrastructure/visp
-
. This involves using cutting-edge microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between
-
microscopy and spectroscopy to investigate their unique electronic, structural, and plasmonic properties. Project 2: Exploring the synthesis of metallene layers sandwiched between SiC and graphene
-
of these materials. Experimentally, these structural and dynamical properties can be vigorously investigated with neutron spectroscopy (INS and QENS), but a formidable task is to study the behavior of the materials