Journal
OPTICAL MATERIALS
Volume 117, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.optmat.2021.111131
Keywords
Samarium; Urethane resin; Composite film; PL
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Samarium (III) oxide (Sm2O3) nanoparticle-based composite films were successfully fabricated using samarium nitrate, ethanol, and UV-curable liquid urethane resin as starting materials. The films changed color from yellow to reddish orange after UV irradiation, with particle size in the range of 56-86 nm. The composite film exhibited photoluminescent properties, and some trivalent Sm3+ particles were reduced to divalent Sm2+ upon extended UV light irradiation.
Using a solution of samarium nitrate and ethanol and a UV-curable liquid urethane resin as starting materials, we fabricated samarium (III)oxide (Sm2O3) nanoparticle-based composite films. The color of the films turned from yellow (of the precursor) to reddish orange after being cured by UV irradiation. The particle size of the Sm2O3 in the composite film were measured using transmission electron microscopy (TEM) and observed to be in the range of 56-86 nm. Moreover, the crystallographic structure of the particles was analyzed via TEM and selected area electron diffraction. The composite film exhibited photoluminescent (PL) properties with a peak at 640 nm (corresponding to the transition 4G5/2 -> 6H9/2) upon irradiation with light at a wavelength of 340 nm. Furthermore, upon extended UV light irradiation, some of the trivalent Sm3+ of Sm2O3 particles in the films were reduced to Sm2+, which was confirmed by the PL peaks observed at 683 nm and 731 nm (attributed to the divalent Sm2+).
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