The subject of the contract is the delivery, installation, and training for operation, including application training, on a scanning electron microscopy system consisting of a FIB-SEM microscope with an ion beam, equipped with analytical methods EDS, EBSD, and a spectrometer for simultaneous measurement of spectra for various energies. The equipment is procured within the framework of a project titled “Development and Design of Sustainable Composite Materials for a Hybrid Energy Storage System Based on Li-ion and Redox-Flow Batteries,” which is funded by the Recovery and Resilience Mechanism (Recovery Plan). Project code: 09I02-03-V01-00022. The aim of the project is research activities focused on the development of innovative lithium-based (Li) alloys intended for use in next-generation batteries. The procured SEM-FIB equipment represents a fundamental technological “pillar” of this project and will enable advanced analysis and mapping of light metal elements, especially Li, in the prepared and studied innovative Li-ion materials.

LOT-0001
Scanning Electron Microscope (SEM) System equipped with FIB, 3D-EBSD, 3D-EDS detectors and Spectrometer for simultaneous measurement of spectra for various energies, for the analysis of light metal elements including lithium (Li).
The subject of the contract is the delivery, installation, and training for operation, including application training, on a scanning electron microscopy system consisting of a FIB-SEM microscope with an ion beam, equipped with analytical methods EDS, EBSD, and a spectrometer for simultaneous measurement of spectra for various energies. The equipment is procured within the framework of a project titled “Development and Design of Sustainable Composite Materials for a Hybrid Energy Storage System Based on Li-ion and Redox-Flow Batteries,” which is funded by the Recovery and Resilience Mechanism (Recovery Plan). Project code: 09I02-03-V01-00022. The aim of the project is research activities focused on the development of innovative lithium-based (Li) alloys intended for use in next-generation batteries. The procured SEM-FIB equipment represents a fundamental technological “pillar” of this project and will enable advanced analysis and mapping of light metal elements, especially Li, in the prepared and studied innovative Li-ion materials.