Lanthanide doping promotes the electrical conductivity of Sb2Se3 as well as thermoelectrical conductivity. UV–vis absorption and emission spectroscopy reveals mainly the electronic transitions of the

Ln3+ ions in the case of Yb3+-doped nanomaterials. Acknowledgments click here This work is funded by the World Class University grant R32-2008-000-20082-0 of the National Research Foundation of Korea. Electronic supplementary material Additional file 1: XRD patterns of Lu x Er x Sb 2−2 x Se 3 , TEM, HRTEM images, SAED pattern of Sb 2 Se 3 nanorods, absorption spectra of Lu 0.02 Yb 0.02 Sb 1.96 Se 3 , Lu 0.01 Yb 0.01 Sb 1.98 Se 3 , and Lu 0.02 Er 0.02 Sb 1.96 Se 3 are provided. Figure S1. Powder X-ray diffraction pattern of Lu x Er x Sb2−x Se3 (x = 0.02). Figure S2. Powder X-ray diffraction pattern of Lu x Er x Sb2−x Se3 (x = 0.04). Figure S3. Powder X-ray diffraction pattern of unknown

Lu x Er x Sb2−x Se3 phase. Figure S4. TEM image of Sb2Se3 nanorods. Figure S5. HRTEM image of the Sb2Se3 nanorods. Figure S6. SAED Pattern of the Sb2Se3 nanorods. The SAED this website zone axis is [1]. Figure S7. Absorption spectra of Lu0.02Yb0.02Sb1.96Se3 nanorods at room temperature. Figure S8. Absorption spectra of Lu0.01Yb0.01Sb1.98Se3 nanorods at room temperature. Figure S9. Absorption spectra of Lu0.02Er0.02Sb1.96Se3 nanoparticles at room temperature. (DOC 3322 kb) (DOC 3 MB) References 1. Calvert P: Rough guide to the nanoworld. Nature 1996, 383:300–301.CrossRef 2. Weller H: Quantized semiconductor particles: a novel state of matter for materials science. Adv Mater 1993, 5:88–95.CrossRef 3. Alivisatos AP: Semiconductor clusters, nanocrystals, and quantum dots. Science 1996, 271:933–937.CrossRef 4. Wang F, Han Y, Lim CS, Lu YH, Wang J, Xu J, Chen HY: Simultaneous phase and size control of upconversion HDAC inhibition nanocrystals through lanthanide doping. Nature 2010, 463:1061–1065.CrossRef 5. Tachikawa T, Ishigaki T, Li J, Fujitsuka M: Defect mediated photoluminescence dynamics of Eu +3 -doped TiO 2 nanocrystals revealed at the single particle or single aggregate level. Angew Chem Int Ed 2008, 47:5348–5352.CrossRef 6. Sun Y, Chen Y, Tian LJ, Yu Y, Kong XG: Morphology-dependent

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