Fluorescence spectroscopy is particularly adept at uncovering the effects of spatial confinement on the spectral properties of transition metals and rare earth ions that are used as dopant in nano-particles. We have investigated a number of nanocrystal systems, such as YAG (Y2Al5O12) and Yttria (Y2O3) of different sizes doped with Chromium, Praseodymium and Neodymium ions. We have chosen to present the results we have obtained on a particular system, Y2O3 doped with Neodymium ion at different concentrations and different nano-sizes that may be considered representative of all the systems we have investigated.
Fluorescence-based studies of nanoparticles
Cesaria M.Writing – Review & Editing
;
2015-01-01
Abstract
Fluorescence spectroscopy is particularly adept at uncovering the effects of spatial confinement on the spectral properties of transition metals and rare earth ions that are used as dopant in nano-particles. We have investigated a number of nanocrystal systems, such as YAG (Y2Al5O12) and Yttria (Y2O3) of different sizes doped with Chromium, Praseodymium and Neodymium ions. We have chosen to present the results we have obtained on a particular system, Y2O3 doped with Neodymium ion at different concentrations and different nano-sizes that may be considered representative of all the systems we have investigated.File in questo prodotto:
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