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47. Bunzli, J.-C.G., Chauvin, A.-S., Kim, H.K.
et al.
(2010) Lanthanide luminescence efficiency
in eight- and nine-coordinate complexes: role of the radiative lifetime.
Coord. Chem. Rev.
,
254
, 2623-2633.
48. Eliseeva, S.V., Song, B., Vandevyver, C.D.B.
et al.
(2010) Increasing the efficiency of lantha-
nide luminescent bioprobes: bioconjugated silica nanoparticles as markers for cancerous cells.
New J. Chem.
,
34
, 2915-2921.
49. Deiters, E., Song, B., Chauvin, A.-S.
et al.
(2008) Testing the length of the pyridine substituent
on cellular uptake in a bimetallic europium luminescent probe.
New J. Chem.
,
32
, 1140-1152.
50. Deiters, E., Song, B., Chauvin, A.-S.
et al.
(2009) Luminescent bimetallic lanthanide biop-
robes for cellular imaging with excitation into the visible.
Chem. Eur. J.
,
15
, 885-900.
51. Lessmann, J.J. and Horrocks, W.d. Jr (2000) Supramolecular coordination chemistry in
aqueous solution: Lanthanide ion-induced triple helix formation.
Inorg. Chem.
,
39
,
3114-3124.
52. Chauvin, A.-S., Comby, S., Baud, M.
et al.
(2009) Luminescent lanthanide helicates self-
assembled from ditopic ligands bearing phosphonic acid or phosphoester units.
Inorg. Chem.
,
48
, 10687-10696.
53. Petoud, S., Bunzli, J.-C.G., Glanzman, T.
et al.
(1999) Influence of charge-transfer states on
the Eu(III) luminescence in mononuclear triple helical complexes with tridentate aromatic lig-
ands.
J. Lumin.
,
82
, 69-79.
54. Goncalves e Silva, F.R., Longo, R.L., Malta, O.L.
et al.
(2000) Theoretical modelling of the
low quantum yield observed in an Eu(III) triple helical complex with a tridentate aromatic
ligand.
Phys. Chem. Chem. Phys.
,
2
, 5400-5403.
55. Goncalves e Silva, F.R., Malta, O.L., Reinhard, C.
et al.
(2002) Visible and near-infrared lumi-
nescence of lanthanide-containing dimetallic triple-stranded helicates: energy transfer mecha-
nisms in the Sm(III) and Yb(III) molecular edifices.
J. Phys. Chem. A
,
106
, 1670-1677.
56. Eliseeva, S.V. and Bunzli, J.-C.G. (2010) Lanthanide luminescence for functional materials
and bio-sciences.
Chem. Soc. Rev.
,
39
, 189-227.
57. Eliseeva, S.V. and Bunzli, J.-C.G. (2011) Rare earths: jewels for functional materials of the
future.
New J. Chem.
,
35
, 1165-1176.
58. Khlebtsov, B.N., Khanadeev, V.A., and Khlebtsov, N.G. (2008) Determination of the size, con-
centration, and refractive index of silica nanoparticles from turbidity spectra.
Langmuir
,
24
,
8964-8970.
59. Jorgensen, C.K. (1962) The nephelauxetic series.
Prog. Inorg. Chem.
,
4
, 73-124.
60. Frey, S.T. and Horrocks, W.d. Jr (1995) On correlating the frequency of the F-7(0)->D-5(0)
transition in Eu(3รพ) complexes with the sum of 'nephelauxetic parameters' for all of the coor-
dinating atoms.
Inorg. Chim. Acta
,
229
, 383-390.
61. Piguet, C., Bunzli, J.-C.G., Bernardinelli, G.
et al.
(1996) Lanthanide podates with predeter-
mined structural and photophysical properties: strongly luminescent self-assembled heterodi-
nuclear d-f complexes with a segmental ligand containing heterocyclic imines and
carboxamide binding units.
J. Am. Chem. Soc.
,
118
, 6681-6697.
62. Binnemans, K. and Gorller-Walrand, C. (1995) A simple model for crystal field splittings of
the 7F1 and 5D1 energy levels of Eu(III).
Chem. Phys. Lett.
,
245
, 75-78.
63. Bunzli, J.-C.G., Chauvin, A.-S., Vandevyver, C.D.B.
et al.
(2008) Lanthanide bimetallic heli-
cates for
in vitro
imaging and sensing.
An. N.Y. Acad. Sci.
,
1130
, 97-105.
64. Andre, N., Jensen, T.B., Scopelliti, R.
et al.
(2004) Supramolecular recognition of heteropairs
of lanthanide ions: a step toward self-assembled bifunctional probes.
Inorg. Chem.
,
43
, 515-
529.
65. Jensen, T.B., Scopelliti, R., and Bunzli, J.-C.G. (2007) Thermodynamic parameters governing
the self-assembly of head-head-head lanthanide bimetallic helicates.
Chem. Eur. J.
,
13
, 8404-
8410.
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