Operando metrology for energy storage materials
Project goals
The aim of the joint research programme is to develop operational techniques and hybrid (multimodal) instrumentation, supported by quantitative and validated ex situ analysis and electrochemical measurements, to go beyond state-of-the-art materials characterisation for high-capacity energy storage technologies. The specific objectives of the project are to develop traceable methods of chemical, physical and structural analysis for ex situ characterisation of high capacity energy storage materials, with a focus on X-ray spectroscopic techniques, including the production and qualification of calibration samples and validation through inter-laboratory studies, and to develop best practice guides for current and emerging operational spectroscopy methods, including X-ray and vibrational spectroscopy, validated by ex situ analysis and ring activities, to improve the repeatability and accuracy of experiments.
Keywords
In operando metrologyvibrational spectroscopyx-ray spectroscopyimpedance spectroscopymass spectrometryenergy storage materialsenergy efficiencyLithium (Li) batteriessolid-state batteries
Public support
Provider
Ministry of Education, Youth and Sports
Programme
—
Call for proposals
—
Main participants
Český metrologický institut
Contest type
M2 - International cooperation
Contract ID
9B22001
Alternative language
Project name in Czech
Operando metrology for energy storage materials
Annotation in Czech
The aim of the joint research programme is to develop operational techniques and hybrid (multimodal) instrumentation, supported by quantitative and validated ex situ analysis and electrochemical measurements, to go beyond state-of-the-art materials characterisation for high-capacity energy storage technologies. The specific objectives of the project are to develop traceable methods of chemical, physical and structural analysis for ex situ characterisation of high capacity energy storage materials, with a focus on X-ray spectroscopic techniques, including the production and qualification of calibration samples and validation through inter-laboratory studies, and to develop best practice guides for current and emerging operational spectroscopy methods, including X-ray and vibrational spectroscopy, validated by ex situ analysis and ring activities, to improve the repeatability and accuracy of experiments.
Scientific branches
Solution timeline
Realization period - beginning
Sep 1, 2022
Realization period - end
Aug 31, 2025
Project status
K - Ending multi-year project
Latest support payment
Feb 12, 2025
Data delivery to CEP
Confidentiality
S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů
Data delivery code
CEP25-MSM-9B-R
Data delivery date
Mar 5, 2025
Finance
Total approved costs
3,451 thou. CZK
Public financial support
1,725 thou. CZK
Other public sources
0 thou. CZK
Non public and foreign sources
0 thou. CZK
Basic information
Recognised costs
3 451 CZK thou.
Public support
1 725 CZK thou.
49%
Provider
Ministry of Education, Youth and Sports
OECD FORD
Materials engineering
Solution period
01. 09. 2022 - 31. 08. 2025