Abstract
Efficient green and red upconversion emission in Y2 O 3: Yb3+, Er3+ nanorods under 978nm radiation excitation is achieved. Experimental effective lifetimes, luminescent emissions, and nanorod sizes depend strongly on the solvent ratios used during the synthesis. A microscopic nonradiative energy transfer model is used to approach the dynamics of the green, red, and infrared emissions. The excellent agreement between simulated and experimental decay suggests that the energy transfer mechanisms responsible of the visible emission depend on the solvent ratio. © 2010 O. Meza et al.
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CITATION STYLE
Diaz-Torres, L. A., Meza, O., Salas, P., Angeles-Chavez, C., Martínez, A., Morales, J., & Oliva, J. (2010). Dynamics of the green and red upconversion emissions in Yb3+-Er 3+-Codoped Y2 O3 nanorods. Journal of Nanomaterials, 2010. https://doi.org/10.1155/2010/491982
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