Lanthanide complex-derived white-light emitting solids: A survey on design strategies

SeethaLekshmi, Sunil; Ramya, A. R.; Reddy, M. L. P.; Varughese, Sunil

doi:10.1016/j.jphotochemrev.2017.11.001

Cited by 128 publications

(83 citation statements)

References 117 publications

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“…[4][5][6][7][8][9] Indeed, these compounds, that present fascinating molecular structures, [10][11] exhibit interesting and original magnetic 12 and optical [13][14][15][16][17][18][19] properties. They could find their application in various technological fields such as light and display, [20][21][22][23][24] chemical sensing, [25][26][27][28] thermometric sensing [29][30][31][32] and fight against counterfeiting, [33][34][35] for instance.…”

Section: Introductionmentioning

confidence: 99%

Multi-Emissive Lanthanide-Based Coordination Polymers for Potential Application as Luminescent Bar-Codes

et al. 2019

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Isostructural lanthanide-based coordination polymers that are obtained by reactions in water of a lanthanide chloride and the sodium salt of 5-methoxyisophthalate (mip 2− ) have the general chemical formula [Ln 2 (mip) 3 (H 2 O) 8 •4H 2 O] ∞ with Ln = Nd−Er except Pm plus Y (symbolized by [Ln 2 (mip) 3 ] ∞ ). Some of these homo-lanthanide compounds present very high luminescence brightness. The weak intermetallic energy transfer between lanthanide ions observed in these compounds allows the design of hetero-lanthanide coordination polymers with tunable luminescence properties. A molecular alloy that involved six different lanthanide ions (Nd 3+ , Sm 3+ , Eu 3+ , Gd 3+ , Tb 3+ , Dy 3+ ) has been prepared and its luminescent properties have been studied. This compound, under a unique irradiation wavelength (λ exc = 325 nm), exhibits almost 20 emission peaks in both the visible and the NIR regions at room temperature. This unprecedented richness of the emission spectrum could be of great interest as far as luminescent barcodes are targeted.

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Section: Introductionmentioning

confidence: 99%

Multi-Emissive Lanthanide-Based Coordination Polymers for Potential Application as Luminescent Bar-Codes

et al. 2019

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“…As at ypeo fefficient photoluminescent (PL) material, lanthanide complexes show unique properties such as largeS tokes shifts, long lifetimes, good monochromaticity, and highs tability. [1,2] Besides their widespreada pplicationsi nt he solid state, [3,4] lanthanide complexes also show great potentiala pplication in bulk solutions. [5,6] In general, the f-f transition of lanthanide(III) ions is Laporte-forbidden, and organic molecules that can coordinate or chelate with the lanthanide(III) ions (i.e., ligands) are neededt oa ctivate the energy transfer.…”

Section: Introductionmentioning

confidence: 99%

Aggregation‐Induced Emission of Eu^III Complexes Balanced with Bulky and Amphiphilic Imidazolium Cations in Ethanol/Water Binary Mixtures

Zhang

Zhu

Chen

et al. 2018

Chemistry A European J

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A series of Eu complexes with thenoyltrifluoroacetone (tta) as the ligands were synthesized, which are balanced with imidazolium cations bearing naphthyl and branched alkyl chains. The complex with the longest alkyl chain (1Eu(tta) ) shows aggregation behavior in ethanol and water mixtures. It exists as individuals at low water percentages (V ), and form particles with solid interiors at V ≥50 % the sizes of which decrease with the increase of V . At V =90 %, vesicles were observed. The aggregation of 1Eu(tta) in ethanol and water binary mixtures induced changes of the photoluminescence (PL) properties where an abrupt increase in PL intensity, quantum yield, and lifetime were noticed above V =50 %. This PL enhancement can be explained by the encapsulation of 1Eu(tta) inside the aggregates, preventing it from quenching by the active hydroxyls of water molecules. Contrary to the aggregation-induced emission (AIE) of the Eu complex, the naphthyl group in the imidazolium cation exhibited an aggregation-caused quenching (ACQ) effect. When the length of the alkyl chain in the imidazolium cation is reduced, no PL enhancement can be observed owing to the difficulty in forming the aggregates.

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“…Because of the unique optical properties of the lanthanide ions [25][26][27] much work has been devoted to the modulation of the intensity and color of the luminescence of lanthanide-based coordination polymers [28][29][30][31]. One of the challenge in that field is to produce intense white light [3, 6, [32][33]. The red and green components can be easily obtained using luminescence of the Eu 3+ and Tb 3+ ions respectively [34].…”

Section: Highligthsmentioning

confidence: 99%

A new family of lanthanide-based coordination polymers with azoxybenzene-3,3′,5,5′-tetracarboxylic acid as ligand

Wang

Daiguebonne

Suffren

et al. 2019

Inorganica Chimica Acta

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Lanthanide complex-derived white-light emitting solids: A survey on design strategies

Cited by 128 publications

References 117 publications

Multi-Emissive Lanthanide-Based Coordination Polymers for Potential Application as Luminescent Bar-Codes

Multi-Emissive Lanthanide-Based Coordination Polymers for Potential Application as Luminescent Bar-Codes

Aggregation‐Induced Emission of Eu^III Complexes Balanced with Bulky and Amphiphilic Imidazolium Cations in Ethanol/Water Binary Mixtures

A new family of lanthanide-based coordination polymers with azoxybenzene-3,3′,5,5′-tetracarboxylic acid as ligand

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Lanthanide complex-derived white-light emitting solids: A survey on design strategies

Cited by 128 publications

References 117 publications

Multi-Emissive Lanthanide-Based Coordination Polymers for Potential Application as Luminescent Bar-Codes

Multi-Emissive Lanthanide-Based Coordination Polymers for Potential Application as Luminescent Bar-Codes

Aggregation‐Induced Emission of EuIII Complexes Balanced with Bulky and Amphiphilic Imidazolium Cations in Ethanol/Water Binary Mixtures

A new family of lanthanide-based coordination polymers with azoxybenzene-3,3′,5,5′-tetracarboxylic acid as ligand

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Aggregation‐Induced Emission of Eu^III Complexes Balanced with Bulky and Amphiphilic Imidazolium Cations in Ethanol/Water Binary Mixtures