Neodymium, Gadolinium, and Terbium Complexes Containing Hexafluoroacetylacetonate and 2,2‘-Bipyrimidine:  Structural and Spectroscopic Characterization

Fratini, Albert; Richards, Gregory; Larder, Emily; Swavey, Shawn

doi:10.1021/ic701805t

Cited by 98 publications

(39 citation statements)

References 51 publications

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“…However, reactions of the nitrate salts of the heavier lanthanide ions with BPM in THF or methanol afforded crystals of only the bis adducts [Ln(NO 3 ) 3 (bpm) 2 ]⋅THF (Ln=Nd, Sm, Eu, Tb, Er, Yb) or [Ln(NO 3 ) 3 (bpm) 2 ] (Ln=Eu, Gd, Dy, Tm), respectively. These compounds are rare examples of lanthanide complexes with BPM as a terminal ligand and, with the recently reported [Tb(hfac) 3 (bpm)(H 2 O)] compound (hfac=hexafluoroacetylacetonate anion),45 they are the only mononuclear lanthanide compounds comprising BPM to have been characterized crystallographically. The synthesis of [Ln(NO 3 ) 3 (bpm) 2 ]⋅THF (Ln=Eu, Tb) contrasts with that of the corresponding dinuclear complexes [{Ln(NO 3 ) 3 (bpm)} 2 (μ‐bpm)], which were reported to be the only isolable products from the Ln(NO 3 ) 3 ⋅6H 2 O/BPM reaction system, whatever the reagent ratio, the solvent, and the crystallization method used 46.…”

Section: Resultsmentioning

confidence: 99%

2,2′‐Bipyrimidine as Efficient Sensitizer of the Solid‐State Luminescence of Lanthanide and Uranyl Ions from Visible to Near‐Infrared

Zucchi

Maury

Thuéry

et al. 2009

Chemistry A European J

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Treatment of Ln(NO(3))(3)nH(2)O with 1 or 2 equiv 2,2'-bipyrimidine (BPM) in dry THF readily afforded the monometallic complexes [Ln(NO(3))(3)(bpm)(2)] (Ln=Eu, Gd, Dy, Tm) or [Ln(NO(3))(3)(bpm)(2)]THF (Ln=Eu, Tb, Er, Yb) after recrystallization from MeOH or THF, respectively. Reactions with nitrate salts of the larger lanthanide ions (Ln=Ce, Nd, Sm) yielded one of two distinct monometallic complexes, depending on the recrystallization solvent: [Ln(NO(3))(3)(bpm)(2)]THF (Ln=Nd, Sm) from THF, or [Ln(NO(3))(3)(bpm)(MeOH)(2)]MeOH (Ln=Ce, Nd, Sm) from MeOH. Treatment of UO(2)(NO(3))(2)6H(2)O with 1 equiv BPM in THF afforded the monoadduct [UO(2)(NO(3))(2)(bpm)] after recrystallization from MeOH. The complexes were characterized by their crystal structure. Solid-state luminescence measurements on these monometallic complexes showed that BPM is an efficient sensitizer of the luminescence of both the lanthanide and the uranyl ions emitting visible light, as well as of the Yb(III) ion emitting in the near-IR. For Tb, Dy, Eu, and Yb complexes, energy transfer was quite efficient, resulting in quantum yields of 80.0, 5.1, 70.0, and 0.8 %, respectively. All these complexes in the solid state were stable in air.

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Section: Resultsmentioning

confidence: 99%

2,2′‐Bipyrimidine as Efficient Sensitizer of the Solid‐State Luminescence of Lanthanide and Uranyl Ions from Visible to Near‐Infrared

Zucchi

Maury

Thuéry

et al. 2009

Chemistry A European J

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“…3 phen] (18%) [38] [dbm-carb = 1-{[6-(9H-carbazol-9-yl)hexoxy]phenyl}-3-{[6 (9H-carbazol-9-yl)-hexoxy]phenyl}-propane-1,3-dione)]. Similarly the intrinsic quantum yield of the 3 ]bpm (4.6%) [39].…”

Section: Intrinsic Quantum Yield (U Ln ) Of the Eu(iii) And Tb(iii) Cmentioning

confidence: 99%

Optical emission studies of new europium and terbium dinuclear complexes with trifluoroacetylacetone and bridging bipyrimidine. Fast radiation and high emission quantum yield

Ilmi

Iftikhar

2015

Polyhedron

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“…The organic ligands can absorb light strongly and transfer it to the lanthanide ions efficiently, as well as protecting the coordinated metal ions from solvent molecules. [8] Luminescent hybrid materials based on Ln 3 + complexes in matrices have long been in the focus of intensive study not only because they are of fundamental interest, but also because they show great potential for different applications. [9][10][11][12][13][14][15] The hybrid materials typically show enhanced stability and improved luminescence with respect to the pristine materials [16][17][18] Sol-gel-derived materials are highly promising matrices for designing new luminescent materials due to attractive characteristics such as highly controlled purity, versatile shaping and patterning, mechanical, thermal, and chemical stability, and biocompatibility.…”

Section: Introductionmentioning

confidence: 99%

Luminescent Hybrid Materials Based on Laponite Clay

Wang

et al. 2014

Chemistry A European J

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The spectroscopic behavior of ionic Eu(3+) or Tb(3+) complexes of an aromatic carboxyl-functionalized organic salt as well as those of the hybrid materials derived from adsorption of the ionic complexes on Laponite clay are reported. X-ray diffraction (XRD) patterns suggest that the complexes are mainly adsorbed on the outer surfaces of the Laponite disks rather than intercalated within the interlayer spaces. Photophysical data showed that the energy-transfer efficiency from the ligand to Eu(3+) ions in the hybrid material is increased remarkably with respect to the corresponding ionic complex. The hybrid material containing the Eu(3+) complex shows bright red emission from the prominent (5) D0 →(7) F2 transition of Eu(3+) ions, and that containing the Tb(3+) complex exhibits bright green emission due to the dominant (5) D4 →(7) F5 transition of Tb(3+) ions.

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Neodymium, Gadolinium, and Terbium Complexes Containing Hexafluoroacetylacetonate and 2,2‘-Bipyrimidine: Structural and Spectroscopic Characterization

Cited by 98 publications

References 51 publications

2,2′‐Bipyrimidine as Efficient Sensitizer of the Solid‐State Luminescence of Lanthanide and Uranyl Ions from Visible to Near‐Infrared

2,2′‐Bipyrimidine as Efficient Sensitizer of the Solid‐State Luminescence of Lanthanide and Uranyl Ions from Visible to Near‐Infrared

Optical emission studies of new europium and terbium dinuclear complexes with trifluoroacetylacetone and bridging bipyrimidine. Fast radiation and high emission quantum yield

Luminescent Hybrid Materials Based on Laponite Clay

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