Lanthanide-Doped NaxScF3+x Nanocrystals: Crystal Structure Evolution and Multicolor Tuning
2012
Teng, Xue | Zhu, Yihan | Wei, Wei | Wang, Shuchao | Huang, Jingfeng | Naccache, Rafik | Hu, Wenbo | Tok, Alfred Iing Yoong | Han, Yu | Zhang, Qichun | Fan, Quli | Huang, Wei | Capobianco, John A. | Huang, Ling
Rare-earth-based nanomaterials have recently drawn considerable attention because of their unique energy upconversion (UC) capabilities. However, studies of Sc³⁺-based nanomaterials are still absent. Herein we report the synthesis and fine control of NaₓScF₃₊ₓ nanocrystals by tuning of the ratio of oleic acid (OA, polar surfactant) to 1-octadecene (OD, nonpolar solvent). When the OA:OD ratio was increased from low (3:17) to high (3:7), the nanocrystals changed from pure monoclinic phase (Na₃ScF₆) to pure hexagonal phase (NaScF₄) via a transition stage at an intermediate OA:OD ratio (3:9) where a mixture of nanocrystals in monoclinic and hexagonal phases was obtained and the coexistence of the two phases inside individual nanocrystals was also observed. More significantly, because of the small radius of Sc³⁺, NaₓScF₃₊ₓ:Yb/Er nanocrystals show different UC emission from that of NaYF₄:Yb/Er nanocrystals, which broadens the applications of rare-earth-based nanomaterials ranging from optical communications to disease diagnosis.
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