A new overview on rare earth diphenylphosphinates: Europium characteristic luminescence of low dimensional nanostructured materials

Bim, Luís F. Bricks; Stucchi, Elizabeth Berwerth; Cebim, Marco Aurélio

doi:10.1016/j.jlumin.2018.06.040

Cited by 6 publications

(4 citation statements)

References 37 publications

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“…As shown in the inset of Figure 5(a), 5 D 0 → 7 F 1 transition at 592 nm of Eu 3+ ions followed magnetic dipole rules and the corresponding fluorescence intensity did not change significantly with the variation of x due to its independence of Eu 3+ ions chemical environment. 33,34 As a contrast, 5 D 0 → 7 F 2 transition at 616 nm, obeying the electric dipole mechanism, was very sensitive to the chemical environment of Eu 3+ ions and the properties of ligands, and its intensity was directly proportional to the Judd Ofelt Ω 2 parameter. 34…”

Section: Resultsmentioning

confidence: 97%

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Flexible and color-tunable poly(ether ether ketone) co-coordinated with Eu(III) and Tb(III) fluorescent films: Thermal stability and luminescence property

Wei

Huang

Song

et al. 2021

High Performance Polymers

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In this work, a novel kind of carboxyl-containing poly(ether ether ketone) (PEEK-COOH) was successfully synthesized and carefully characterized. Based on PEEK-COOH as macromolecular ligands, a series of luminescent rare earth polymer complexes (PEEKn-Eux-Tb1-x) were prepared and made into flexible films. The effects of the ratio of carboxyl ligand to rare earth ions on fluorescence intensity of complexes were studied and discussed. When the molar ratio was 6:1, the fluorescence emission intensity reached a maximum. Furthermore, the relative emission intensity of Tb3+ and Eu3+ binary system depended on their ratio and the intensity of fluorescence emission peak exhibited continuous change. Because of this, the color of the prepared fluorescent films could range from bright green to fire red, and each color has high purity. The fluorescence lifetime of complexes ranged from 0.428 to 0.511 ms. Absolute quantum yield of PEEK-Eu0.4-Tb0.6 was 8.4%. Beside this, these fluorescence films exhibited a high thermal stability with 5 wt. % in the range of 240–250°C, and its tensile strength was about 28 MPa. In addition, PEEKn-Eux-Tb1-x films possessed good optical transparency. All the interesting results suggested the potential application of the luminescent rare earth polymer complexes in display devices and photo-electronic devices.

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Section: Resultsmentioning

confidence: 97%

“…33,34 As a contrast, 5 D 0 → 7 F 2 transition at 616 nm, obeying the electric dipole mechanism, was very sensitive to the chemical environment of Eu 3+ ions and the properties of ligands, and its intensity was directly proportional to the Judd Ofelt Ω 2 parameter. 34…”

Section: Resultsmentioning

confidence: 97%

Flexible and color-tunable poly(ether ether ketone) co-coordinated with Eu(III) and Tb(III) fluorescent films: Thermal stability and luminescence property

Wei

Huang

Song

et al. 2021

High Performance Polymers

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“…Taking advantage of unique fluorescence properties of rare earth (RE) elements including yttrium and lanthanides, RE-MOFs have been applied in broad applications, such as light emitting, [72][73][74][75][76][77][78][79][80][81][82][83][84][85][86][87][88] sensing, [89][90][91][92][93][94] catalysis, [95][96][97] and imaging [98][99][100][101][102] (Figure 3).…”

Section: Mofs Based On Y and Lns (Group 3 Metals)mentioning

confidence: 99%

Metal–Organic Frameworks Based on Group 3 and 4 Metals

et al. 2020

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Metal-organic frameworks (MOFs), a class of porous crystalline framework materials, are linked by strong bonds between inorganic and organic building blocks. [1-3] In the past two decades, MOFs have rapidly grown as a star material due to their exceptional performance in areas such as storage, separation and catalysis. [4] The outstanding performance of MOFs in applications benefits from their intrinsically porous structures and highly tunable pore environment. [5-7] The creation and modification of pore space with optimized size, functionality and diversity can be precisely tuned at the molecular level by rationally designing building blocks and synthetic procedures. [8,9] The diversity of MOFs can be enriched by expanding the library of organic linkers with varying lengths, geometries, and functional groups. [10] Additionally, very diverse metal cations are applied to MOF synthesis, ranging from monovalent (Ag + , Cu + , etc.), divalent (Mg 2+ , Fe 2+ , Co 2+ , Ni 2+ , etc.), trivalent (Al 3+ , Sc 3+ , V 3+ , Cr 3+ , etc.), to tetravalent (Ti 4+ , Zr 4+ , Hf 4+ , etc.) cations. [11] In this review, we mainly focus on MOFs with group 3 and 4 metals, including Y, lanthanides (Ln, from La to Lu), actinides (An, from Ac to Lr), Ti, and Zr (Figure 1). Group 3 metal cations are generally found in the oxidation state of +3 in the MOF structures, while group 4 metal cations mainly exist in the oxidation state of +4, leading to the formation of much stronger coordination bonds with carboxylates. [12] Therefore, group 4 metal-based MOFs (M IV-MOFs) generally have enhanced stability compared with MOFs constructed from metals of group 3 and other groups. This series of MOFs stands out because the involved metals can generally coordinate with carboxylates to form frameworks with strong coordination bonds, according to the Pearson's hard/soft acid/base principle, where group 3 and 4 metal cations are regarded as hard acids while carboxylate ligands are hard bases. [11] One remarkable feature of MOFs with group 3 and 4 metals is that they generally can form phases containing M 6 O 8 (M = Y, Ln, An, Zr and Hf) clusters, regardless of their atomic numbers, charges and radius. This series of M 6-based MOFs is best represented by UiO series such as UiO-66 with fcu topology. [13] Under different synthetic conditions, UiO-66(M, M = An, Zr and Hf) constructed from [M 6 (μ 3-O) 4 (μ 3-OH) 4 ] clusters and linear carboxylates can be obtained, while UiO-66(M, M = Y, Ln) is assembled from Metal-organic frameworks (MOFs) based on group 3 and 4 metals are considered as the most promising MOFs for varying practical applications including water adsorption, carbon conversion, and biomedical applications. The relatively strong coordination bonds and versatile coordination modes within these MOFs endow the framework with high chemical stability, diverse structures and topologies, and interesting properties and functions. Herein, the significant progress made on this series of MOFs since 2018 is summarized and an update on the current status an...

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“…Em particular, suas propriedades luminescentes, conferidas pelas intensas e estreitas bandas de emissão, resultantes de transições do tipo f-f, geram cores específicas em dispositivos luminescentes. 42,43 Assim, materiais luminescentes contendo terras raras possuem extensa aplicação em dispositivos de iluminação, como displays emissores e lâmpadas fluorescentes, 44,45 sendo extensamente processados na forma de luminóforos de estado sólido, [46][47][48][49][50][51][52][53][54][55][56][57][58][59][60] materiais híbridos e compostos de coordenação, [61][62][63][64][65][66][67][68][69] vidros, 70 de mercúrio e, assim, evitar a perda de mercúrio da lâmpada e a redução da saída de luminosidade da lâmpada. A camada de barreira também melhora a eficiência da lâmpada, refletindo a luz UV que passa através da camada de material fosfórico para a camada de vidro.…”

Section: Terras Rarasunclassified

Redes metalo-orgânicas contendo íons lantanídeos: MOFs e LOFs

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VI "Hoje você é quem manda Falou, tá falado Não tem discussão, não A minha gente hoje anda Falando de lado E olhando pro chão, viu Você que inventou esse estado E inventou de inventar Toda a escuridão Você que inventou o pecado Esqueceu-se de inventar O perdão Apesar de você Amanhã há de ser Outro dia Eu pergunto a você Onde vai se esconder Da enorme euforia Como vai proibir Quando o galo insistir Em cantar Água nova brotando E a gente se amando Sem parar Quando chegar o momento Esse meu sofrimento Vou cobrar com juros, juro Todo esse amor reprimido Esse grito contido Este samba no escuro Você que inventou a tristeza Ora, tenha a fineza De desinventar Você vai pagar e é dobrado Cada lágrima rolada Nesse meu penar Inda pago pra ver O jardim florescer Qual você não queria Você vai se amargar Vendo o dia raiar Sem lhe pedir licença E eu vou morrer de rir Que esse dia há de vir Antes do que você pensa Apesar de você Amanhã há de ser Outro dia..." Chico BuarqueDedico esta tese: Foi um período conturbado, tentando provar ao Departamento de Química, ao longo de todos estes anos, que nosso trabalho era valioso e que estávamos prosseguindo com suporte legal para isso. Mas nada adiantou, pois na vida o que vale não é o certo e sim os recursos disponíveis a cada pessoa. Como sempre, os grandes venceram e me retirou da pessoa que orientou todo este trabalho. Dedico os resultados, os avanços e todo aprendizado ao meu grande orientador e esposo, Osvaldo A. Serra, fonte inesgotável de amor e dedicação a mim e a ciência. Minha inspiração de vida, obrigada por dividir todos bons momentos comigo e me oferecer todo suporte nos dias difíceis. Te amo muito e sempre. À minha família, em especial minha mãe Regiane, Bisa Irene, meu pai de todo coração Osmar e tio Edson, que tudo fizeram para que eu pudesse chegar aqui. Vocês são tudo na minha vida! VIII Agradeço: Ao meu orientador e esposo Prof. Serra, pela valiosa orientação e dedicação durante todos estes anos, por me ensinar o significado do amor ao trabalho, por todo incentivo e paciência. Ao Prof. Marcelex pelo carinho ofertado em todos momentos, bem como todo suporte ao longo dos anos (e dos problemas). Existem poucas pessoas tão boas como você! Aos técnicos e funcionários do DQ que contribuíram muito para a realização deste trabalho. Ao amigo e Dr. Cláudio Neri por todos auxílios, discussões cientificas e grande amizade. A Prof. Juliana -UERJ (Juju) por todo amor, atenção e trabalho envolvidos nestes anos. Você é um grande exemplo! Ao nosso grande colaborador e amigo, que apareceu para somar nas nossas vidas e na pesquisa, Ricardo O. Freire -UFSE. A toda família LTR, em especial, Moama e Marrary, minhas irmãs cientificas e grandes amigas, por todo apoio e amizade.Àqueles que, por descuido de minha parte, não foram aqui mencionados, mas que de alguma forma contribuíram para este trabalho.Ao CNPq pela bolsa de doutorado, concedida ao longo destes anos, bem como pelo financiamento das pesquisas desenvolvidas em nosso laboratório.

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A new overview on rare earth diphenylphosphinates: Europium characteristic luminescence of low dimensional nanostructured materials

Cited by 6 publications

References 37 publications

Flexible and color-tunable poly(ether ether ketone) co-coordinated with Eu(III) and Tb(III) fluorescent films: Thermal stability and luminescence property

Flexible and color-tunable poly(ether ether ketone) co-coordinated with Eu(III) and Tb(III) fluorescent films: Thermal stability and luminescence property

Metal–Organic Frameworks Based on Group 3 and 4 Metals

Redes metalo-orgânicas contendo íons lantanídeos: MOFs e LOFs

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