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aree:epr:attivita:materiali [2021/02/03 10:00]
Paola Fattibene
aree:epr:attivita:materiali [2021/02/03 10:00] (versione attuale)
Paola Fattibene
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 EPR spectroscopy can be fruitfully employed for structural characterization of solid materials, as well as for the quantification of paramagnetic defects and impurities, for the study of magnetic properties, conductive properties, material degradation,​ particle size, light and radiation induced defects, ion valence state and local environment studies. Example of studied materials are: polimers, 2D graphene-based nanomaterials,​ metal nanoparticles,​ amorphous silicon. Materials can be measured in any form (powders, crystals, films, amorphous). EPR spectroscopy can be fruitfully employed for structural characterization of solid materials, as well as for the quantification of paramagnetic defects and impurities, for the study of magnetic properties, conductive properties, material degradation,​ particle size, light and radiation induced defects, ion valence state and local environment studies. Example of studied materials are: polimers, 2D graphene-based nanomaterials,​ metal nanoparticles,​ amorphous silicon. Materials can be measured in any form (powders, crystals, films, amorphous).