Thermodynamics, Structure and Properties of Polynuclear Lanthanide Complexes with a Tripodal Ligand: Insight into their Self‐Assembly

Hamacek, Josef; Besnard, Céline; Penhouet, Tiphaine; Morgantini, Pierre-Yves

doi:10.1002/chem.201100173

Cited by 36 publications

(25 citation statements)

References 89 publications

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“…Many pioneering and elegant examples with beautiful architectural formations have been developed by Bünzli, Piguet, and other researchers. However, higher order and sophisticated polynuclear architectures such as tetranuclear tetrahedral edifices 7 ─ 14 and heptanuclear clusters 15 , 16 with cavities for potential encapsulation of guests are much less explored due to the difficulty in controlling the topology and coordination geometry. Similar to linear helicates, tetrahedral cages are intrinsically chiral with either a Δ or Λ configuration at each of the four vertices.…”

Section: Introductionmentioning

confidence: 99%

“…CPL spectroscopy studies of mononuclear systems has received considerable attention in recent years, particularly in sensing chemistry 25 – 27 ; however, only a few studies have been documented regarding supramolecular polynuclear systems 15 , 28 – 30 and none are known regarding lanthanide tetrahedral cages. The latter is believed to be a result of both weak luminescence properties and instrumental inaccessibility 7 – 14 . As a result, we set off to provide some of the missing pieces of this puzzle in the chiroptical picture in order to bridge the gap between fundamental research and applications.…”

Section: Introductionmentioning

confidence: 99%

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Chiral transcription in self-assembled tetrahedral Eu4L6 chiral cages displaying sizable circularly polarized luminescence

et al. 2017

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Predictable stereoselective formation of supramolecular assembly is generally believed to be an important but complicated process. Here, we show that point chirality of a ligand decisively influences its supramolecular assembly behavior. We designed three closely related chiral ligands with different point chiralities, and observe their self-assembly into europium (Eu) tetrametallic tetrahedral cages. One ligand exhibits a highly diastereoselective assembly into homochiral (either ΔΔΔΔ or ΛΛΛΛ) Eu tetrahedral cages whereas the two other ligands, with two different approaches of loosened point chirality, lead to a significant breakdown of the diastereoselectivity to generate a mixture of (ΔΔΔΔ and ΛΛΛΛ) isomers. The cages are highly emissive (luminescence quantum yields of 16(1) to 18(1)%) and exhibit impressive circularly polarized luminescence properties (|g lum|: up to 0.16). With in-depth studies, we present an example that correlates the nonlinear enhancement of the chiroptical response to the nonlinearity dependence on point chirality.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Chiral transcription in self-assembled tetrahedral Eu4L6 chiral cages displaying sizable circularly polarized luminescence

et al. 2017

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“…In the complex, 24 virtual connections exist, which globally generate asufficient energy gain to overcome repulsive interactions between cations.T he overall thermodynamic balance is thus favourable for the assembly process andt he octanuclear edifice is stabilized even in metal excess, while [Eu 4 L2 4 ] 12 + with only 12 connections is destroyed. [14] In summary,t he rational design of the octanuclear edifice with europium, efficiently supported by molecular modelling, exploits axial extensions of the tetranuclearp latform investigated previously. Indeed, the treatment of L1 with europium provides octanuclear helicates [Eu 8 L1 4 ] 24 + ,t he stoichiometry and structure of which were undoubtedly confirmed by mass spectrometry and NMR analyses.…”

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confidence: 99%

“…[11, 12] Recently,s everalt etranuclear tetrahedral complexes built with lanthanides have been investigated. [13][14][15] These polynuclear edifices may exhibit several functionalities such as selective host-guest interactions, [16,17] light emission in the NIR-visible region, energy transfer and conversion.I nt his context, as patial extension of the central tetrahedron in the direction of C 3 axes is ac hallenging task allowing the introduction of additional binding sites for metalliccations in order to obtain helicoidal homo-or hetero-octanuclear complexes with tetrahedral topology.T here are only few reports on octanuclear lanthanide-containing assemblies, [18] but any system exploits similar concept. Herein we report on an unprecedented strict selfassembly of an octanuclear helicate resulting from the reaction of an ew polydentate ligand L1 with europium(III).…”

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confidence: 99%

Designing Artificial 3D Helicates: Unprecedented Self‐Assembly of Homo‐octanuclear Tetrapods with Europium

Zebret

Vögele

Klumpler

et al. 2015

Chemistry A European J

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Herein, we report on the rational design, preparation and characterization of a novel homo-octanuclear helicate, which results from a spatial extension of the central tetranuclear platform. The 3D supramolecular assembly is obtained by complexing europium(III) with a new hexatopic tripodal ligand. The isolated octanuclear helicate is fully characterized by different methods clearly evidencing the structure predicted with molecular modelling. The ligand preorganization plays a crucial role in a successful self-assembly process and induces the formation of a well-defined triple-stranded helical structure. This prototypal octanuclear edifice accommodating functional lanthanides within a 3D scaffold offers attractive perspectives for further applications.

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“…Anchors based on single carbon atoms have been achieved by using 1,1,1‐tris(hydroxymethyl)ethane (THME) for L13 , or 1,1,1‐tris(aminomethyl)ethane (TAME) for L14 and L15 . Similarly, L16 , with two coordinating moieties per strand, was synthesised .…”

Section: Ligand Design Structural Properties and Synthesismentioning

confidence: 99%

Controlling the Structures of Lanthanide Complexes in Self‐Assemblies with Tripodal Ligands

Hamacek

Vuillamy

2017

Eur J Inorg Chem

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The complexity of self‐assembled supramolecular systems is continuously evolving in the direction of large multicomponent polynuclear architectures. The self‐assembly of such systems requires the preparation of sophisticated organic receptors with “programmed” multidentate sites for binding metal ions. In this review we focus on the concept of tripodal receptors specifically designed for complexing lanthanide cations. A large palette of polytopic podands is described, and the structures of their anchoring and binding moieties are discussed together with their impact on the self‐assembly with LnIII. The crystal or calculated structures of mononuclear and polynuclear complexes are shown to illustrate typical structural features in relation to their properties. Moreover, thermodynamic speciation with several ligands is analysed along the lanthanide series in order to ascertain the effects of the ionic size. Understanding and controlling the different factors discussed here should help in rational designing of more complex architectures with LnIII.

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Thermodynamics, Structure and Properties of Polynuclear Lanthanide Complexes with a Tripodal Ligand: Insight into their Self‐Assembly

Cited by 36 publications

References 89 publications

Chiral transcription in self-assembled tetrahedral Eu4L6 chiral cages displaying sizable circularly polarized luminescence

Chiral transcription in self-assembled tetrahedral Eu4L6 chiral cages displaying sizable circularly polarized luminescence

Designing Artificial 3D Helicates: Unprecedented Self‐Assembly of Homo‐octanuclear Tetrapods with Europium

Controlling the Structures of Lanthanide Complexes in Self‐Assemblies with Tripodal Ligands

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