Journal
CRYSTENGCOMM
Volume 16, Issue 14, Pages 2898-2909Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c3ce42091d
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Funding
- National Natural Science Foundation of P.R. China [21003053, 21171059]
- Science, Technology Department of Guangdong [2010B090300031]
- Undergraduates' Innovating Experimentation Project of Guangdong Province
- Undergraduates' Innovating Experimentation Project of South China Normal University
- Students' Extracurricular Scientific Research Project of South China Normal University
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Reactions of Ln(III) salts with 4'-(2,4-disulfophenyl)-2,2':6'2''-terpyridine (H2DSPT) result in five types of coordination polymers, namely, {[Gd(DSPT)(OH)(H2O)(2)]center dot 4H(2)O}(n) (type I, 1), {[Ln(DSPT)(ox)(0.5)]center dot H2O}(n) (type II, Ln = Nd (2), Eu (3), Tb (4), Er (5), Yb (6), Lu (7), ox = oxalate), {[Ln(DSPT)(ox)(0.5)(H2O)]center dot 4H(2)O}(n) (type III, Ln = Yb (8), Lu (9)), {[Ln(DSPT)(pBDC)(0.5)center dot(H2O)(2)]center dot 5H(2)O}(n) (type IV, Ln = Yb (10), Lu (11), H(2)pBDC = 1,4-benzenedicarboxylic acid), and {[Ln(DSPT)(pBDC)(0.5)center dot(H2O)(2)]center dot 5H(2)O}(n) (type V, Ln = Dy (12), Er (13)). Type I is a 1D chain built from binuclear Ln(2)(DSPT)(2) building blocks and OH-linkers. Type II is a 2D layer with (4,5)-connected topology constructed by binuclear Ln(2)(DSPT)(2) building blocks and ox-anions. Type III is also a 2D network based on Ln(III), DSPT2-, and ox(-), but with (3,4)-connected topology. The ox-anion is generated in situ from carboxylic acid precursor in type II and type III structures. The formation of Lu(III) complexes of type II or type III can be tuned by the addition of different carboxylic precursors. Type IV posseses a 2D layered structure based on the [Ln(DSPT)] n chain connected by pBDC(2-). Type V exhibits a 3D framework formed by binuclear [Ln(2)(SO3)(2)(COO)(2)] secondary building blocks and DSPT2- and pBDC(2-) linkers, resulting in a uninodal 8-connected sqc4 topology. The Nd- and Yb-centered complexes show strong NIR luminescence, whereas the Tb- and Eu-centered complexes exhibit strong luminescence in the visible region at room temperature in both solid state and water emulsions. Their luminescence intensity can be strongly quenched by the addition of diethylchlorophosphonate (DCP), but significantly less influenced by dimethylmethylphosphonate (DMMP), diethylcyanophosphonate (DCNP) and other selected organophosphate, which make this material have a potential application in nerve-agent detection.
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