Abstract
Suppression of the inner energy dissipation, related to the lattice phonons and inner defects, in lanthanide doped upconversion luminescent materials remains a formidable challenge. Herein, we reveal an energy cycling strategy capable of suppressing the inner energy dissipation in lanthanide doped upconversion nanocrystals. Yb3+ ions were introduced in Er3+ heavily doped nanocrystals as an energy reservoir to compete with the inner energy dissipation. The detailed energy cycling processes between Er3+ activator and Yb3+ reservoir, responsible for the enhancement of Er3+ upconversion intensity, are proposed and further verified on the basis of spectral observations. The energy cycling strategy, with unique merits like facile and cost-effective preparation as well as broad scope of application, is highly valuable in lanthanide luminescent nanomaterials.
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