Upconversion Luminescence in a Photostable Ion‐Paired Yb−Eu Heteronuclear Complex
Wen Lü, Wenchao Yan, Ruoyao Guo, Jiayin Zheng, Zuqiang Bian, Zhiwei Liu
Abstract
Abstract Lanthanide‐based upconversion molecular complexes have potential application in diverse fields and attracted considerable research interest in recent years. However, the similar coordination reactivity of lanthanide ions has constrained the designability of target molecule with well‐defined structure, and many attempts obtained statistical mixtures. Herein, an ion‐paired Yb−Eu heteronuclear complex [Eu(Tp Py ) 2 ][Yb(ND) 4 ] (Tp Py =tris[3‐(2‐pyridyl)pyrazolyl]hydroborate, ND=3‐cyano‐2‐methyl‐1,5‐naphthyridin‐4‐olate) was designed and synthesized. Thanks to the radius difference between Eu 3+ (1.07 Å) and Yb 3+ (0.98 Å) ions, the hexadentate Tp Py ligand was selected to coordinate with Eu 3+ and the Yb 3+ with a smaller radius was chelated by bidentate ND ligand. As a result, the sites of Eu 3+ and Yb 3+ in the complex can be clarified by high‐resolution mass spectrometry and single‐crystal structure analysis. Upon the excitation of Yb 3+ at 980 nm, the upconversion emission of Eu 3+ was realized through a cooperative sensitization process. Furthermore, [Eu(Tp Py ) 2 ][Yb(ND) 4 ] demonstrated excellent photostability during continuous high‐power density 980 nm laser irradiation, with a LT 95 (the time to 95 % of the initial emission intensity) of 420 minutes. This work provides the first example of a pure ion‐paired Yb−Eu heteronuclear complex upconversion system and may bring insights into rational design of lanthanide‐based upconversion molecular complexes.