Your search keyword '"COORDINATION polymers"' showing total 6 results

1. Estudos espectroscópicos e estruturais dos polímeros de coordenação 2D, ∞[Tb(DPA)(HDPA)] e ∞[Gd(DPA)(HDPA)] Structural and spectroscopic studies of the 2D coordination polymers, ∞[Tb(DPA)(HDPA)] and ∞[Gd(DPA)(HDPA)]

Author

Marcelo O. Rodrigues, Antonio M. Brito-Silva, Severino Alves Júnior, Carlos A. De Simone, Adriano Antunes S. Araújo, Pedro Henrique V. de Carvalho, Sílvia Caroline G. Santos, Kennedy Alexandre S. Aragão, Ricardo O. Freire, and Maria Eliane Mesquita

Subjects

lanthanides, coordination polymers, luminescence, Chemistry, QD1-999

Abstract

This paper presents the synthesis of the coordination polymers ∞[Ln(DPA)(HDPA)] (DPA=2,6-pyridinedicarboxylate; Ln= Tb and Gd), their structural and spectroscopic properties. The structural study reveals that the ∞[Ln(DPA)(HDPA)] has a single Ln+3 ion coordinated with two H2DPA ligands in tridentade coordination mode, while two others H2DPA establish a syn-bridge with a symmetry-related Ln3+, forming a two-dimensional structure. The spectroscopic studies show that ∞[Tb(DPA)(HDPA)] compound has high quantum yield (q x≈ 50.0%), due to the large contribution of radiative decay rate. Moreover triplet level is localized sufficiently over the emitter level 5D4 of theTb3+ ion, avoiding a retrotransference process between these states.

Published

2009

2. Compuestos metal-orgánicos con propiedades multifuncionales

Author

Baldo Hurtado, Bianca, Institut des Sciences Chimiques de Rennes (ISCR), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA), Université Rennes 1, Verónica Paredes, and Nathalie Audebrand

Subjects

Coordination polymers, Matériaux hybrides métaux-Organiques, Metal-Organic compounds, Optical properties, Chiral, Magnetic, Chimie Inorganique, [CHIM.INOR]Chemical Sciences/Inorganic chemistry, Heterometallic, Polymères de coordination, Sonochimie, Sonochemical

Abstract

The fact that metal-organic compound contains an organic and an inorganic part, makes these systems highly modulable, from the dimensionality of their structure to the properties that are obtained. For this reason during the last time, the coordination chemistry has been focused on the synthesis of new materials based on 3d and 4f cations, linked through organic ligand with functional groups of different chemical nature, which contribute to obtain new materials with interesting properties such as luminescence, non-linear optics and magnetism, among others. On the other hand, the synthesis of metal-organic compounds of greater dimensionality has been dominated by long reaction times, using organic solvents exposed to conditions of temperature and pressure higher than those used in traditional synthesis methods. However, the interest for new synthetic techniques with shorter reaction times and more friendly to the environment, such as mechanochemistry and sonochemistry has grown in last years. In this thesis, are reported the synthesis, structural and optical characterization of nine coordination compounds based on the imidazole-4-acrylic acid ligand. The compounds are classified into two types: (1) based on nd cations, which are the precursors of the type [M(HIA)2(H2O)4] (with M = CuII, NiII, CdII and ZnII), obtained by mechanochemical synthesis, and also the coordination polymer {[Cd(H2IA)(HIA)(H2O)2]2·H2O(NO3)2}n obtained by sonochemistry; and (2) nd/4f heterometallic compounds obtained by sonochemical synthesis, which are based on the CuII/EuIII, CuII/GdIII, CuII/CeIII and CdII/CeIV cations. It should be noted that the compounds based on the CuII/LnIII cations were also magnetically characterized. Additionally, a family of compounds based on NiII/LnII, obtained by structural synthesis is reported. Although, the H2IA ligand does not participate in the final product, the compounds are considered novel from the structural point of view, because the Ln2+ cation, had stabilized only in organometallic compounds until now. Finally, it is important to highlight that the thesis work presented has been carried out within the framework of a co-supervision between the Université de Rennes 1, France, and the Andrés Bello University, Chile, for which two stays were made in France, with six months of duration each one. The results presented were obtained in Laboratoire ISCR Institut des Sciences Chimiques in Rennes, France, and in the Laboratorio de Compuestos Polimetálicos, Chile.; Le fait qu'un composé métal-organique contienne à la fois une partie organique et une partie inorganique, rend ces systèmes hautement modulables, de la dimensionnalité de leur structure aux propriétés obtenues. Ainsi, la chimie de coordination a été axée sur la synthèse de nouveaux matériaux à base de cations 3d et 4f, liés par des ligands organiques avec des groupes fonctionnels de nature chimique différente, ce qui permet de trouver à ces matériaux intéressants des propriétés telles que la luminescence, l'optique non linéaire et le magnétisme. En outre, la synthèse de composés métal-organique de dimensionnalité supérieur a été dominé par les longues durées de réaction, en plus de l'utilisation de solvants organiques exposés à des conditions de température et supérieures à celles utilisées dans des procédés de synthèse classique pression. Cependant, au cours des dernières années, l'intérêt s'est accru dans le développement de nouvelles techniques de synthèse avec des temps de réaction plus courts et plus favorables à l'environnement, tels que la mécanochimie et la sonochimie. Dans cette thèse, nous présentons la synthèse, la caractérisation structurale et optique de neuf composés de coordination basés sur le liant d'imidazole-4-acide acrylique. Les composés sont classés en deux types: (1) sur la base des cations nd, à l'intérieur qui sont les précurseurs du type [M(HIA)2(H2O)4] (M = CuII, NiII, CdII et ZnII), obtenu par synthèse mécanochimique, et le polymère de coordination {[Cd(H2IA)(HIA)(H2O)2]2∙H2O(NO3)2}n obtenu par sonochimique; et (2) des composés hétérométallique nd/4f, qui sont basées sur la Cu(II)/Eu(III), Cu(II)/Gd(III), Cu(II)/Ce(III) et cations Cd(II)/Ce(IV), tous obtenus par synthèse sonochimique. Il est à noter que les composés basés sur les cations Cu(II)/Ln(III) ont également été caractérisés magnétiquement. De plus, une famille de composés à base de Ni(II)/Ln(II), obtenue par synthèse structurale est rapportée.

Published

2018

3. Matériaux hybrides métaux-organiques multifonctionnels

Author

Baldo Hurtado, Bianca, Institut des Sciences Chimiques de Rennes (ISCR), Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Université de Rennes (UNIV-RENNES)-Institut National des Sciences Appliquées (INSA), Université Rennes 1, Verónica Paredes, Nathalie Audebrand, STAR, ABES, Université de Rennes (UR)-Institut National des Sciences Appliquées - Rennes (INSA Rennes), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Ecole Nationale Supérieure de Chimie de Rennes (ENSCR)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Université de Rennes, and Universidad Andrés Bello (Santiago)

Subjects

[CHIM.INOR] Chemical Sciences/Inorganic chemistry, Coordination polymers, Matériaux hybrides métaux-Organiques, Metal-Organic compounds, Optical properties, Chiral, Magnetic, Chimie Inorganique, [CHIM.INOR]Chemical Sciences/Inorganic chemistry, Heterometallic, Polymères de coordination, Sonochimie, Sonochemical

Abstract

The fact that metal-organic compound contains an organic and an inorganic part, makes these systems highly modulable, from the dimensionality of their structure to the properties that are obtained. For this reason during the last time, the coordination chemistry has been focused on the synthesis of new materials based on 3d and 4f cations, linked through organic ligand with functional groups of different chemical nature, which contribute to obtain new materials with interesting properties such as luminescence, non-linear optics and magnetism, among others. On the other hand, the synthesis of metal-organic compounds of greater dimensionality has been dominated by long reaction times, using organic solvents exposed to conditions of temperature and pressure higher than those used in traditional synthesis methods. However, the interest for new synthetic techniques with shorter reaction times and more friendly to the environment, such as mechanochemistry and sonochemistry has grown in last years. In this thesis, are reported the synthesis, structural and optical characterization of nine coordination compounds based on the imidazole-4-acrylic acid ligand. The compounds are classified into two types: (1) based on nd cations, which are the precursors of the type [M(HIA)2(H2O)4] (with M = CuII, NiII, CdII and ZnII), obtained by mechanochemical synthesis, and also the coordination polymer {[Cd(H2IA)(HIA)(H2O)2]2·H2O(NO3)2}n obtained by sonochemistry; and (2) nd/4f heterometallic compounds obtained by sonochemical synthesis, which are based on the CuII/EuIII, CuII/GdIII, CuII/CeIII and CdII/CeIV cations. It should be noted that the compounds based on the CuII/LnIII cations were also magnetically characterized. Additionally, a family of compounds based on NiII/LnII, obtained by structural synthesis is reported. Although, the H2IA ligand does not participate in the final product, the compounds are considered novel from the structural point of view, because the Ln2+ cation, had stabilized only in organometallic compounds until now. Finally, it is important to highlight that the thesis work presented has been carried out within the framework of a co-supervision between the Université de Rennes 1, France, and the Andrés Bello University, Chile, for which two stays were made in France, with six months of duration each one. The results presented were obtained in Laboratoire ISCR Institut des Sciences Chimiques in Rennes, France, and in the Laboratorio de Compuestos Polimetálicos, Chile., Le fait qu'un composé métal-organique contienne à la fois une partie organique et une partie inorganique, rend ces systèmes hautement modulables, de la dimensionnalité de leur structure aux propriétés obtenues. Ainsi, la chimie de coordination a été axée sur la synthèse de nouveaux matériaux à base de cations 3d et 4f, liés par des ligands organiques avec des groupes fonctionnels de nature chimique différente, ce qui permet de trouver à ces matériaux intéressants des propriétés telles que la luminescence, l'optique non linéaire et le magnétisme. En outre, la synthèse de composés métal-organique de dimensionnalité supérieur a été dominé par les longues durées de réaction, en plus de l'utilisation de solvants organiques exposés à des conditions de température et supérieures à celles utilisées dans des procédés de synthèse classique pression. Cependant, au cours des dernières années, l'intérêt s'est accru dans le développement de nouvelles techniques de synthèse avec des temps de réaction plus courts et plus favorables à l'environnement, tels que la mécanochimie et la sonochimie. Dans cette thèse, nous présentons la synthèse, la caractérisation structurale et optique de neuf composés de coordination basés sur le liant d'imidazole-4-acide acrylique. Les composés sont classés en deux types: (1) sur la base des cations nd, à l'intérieur qui sont les précurseurs du type [M(HIA)2(H2O)4] (M = CuII, NiII, CdII et ZnII), obtenu par synthèse mécanochimique, et le polymère de coordination {[Cd(H2IA)(HIA)(H2O)2]2∙H2O(NO3)2}n obtenu par sonochimique; et (2) des composés hétérométallique nd/4f, qui sont basées sur la Cu(II)/Eu(III), Cu(II)/Gd(III), Cu(II)/Ce(III) et cations Cd(II)/Ce(IV), tous obtenus par synthèse sonochimique. Il est à noter que les composés basés sur les cations Cu(II)/Ln(III) ont également été caractérisés magnétiquement. De plus, une famille de composés à base de Ni(II)/Ln(II), obtenue par synthèse structurale est rapportée.

Published

2018

4. Macroscopically molded cordination polymers casted from a columnar liquid crystaline phases

Author

Rossi, Leonardo and Cukiernik, Fabio Daniel

Subjects

POLIMEROS DE COORDINACION, CRISTALES LIQUIDOS COLUMNARES, FIBRAS ORIENTADAS, CONDUCTIVIDAD, CARBOXILATOS BIMETALICOS, BIMETALLIC CARBOXYLATES, ORIENTED FIBERS, COORDINATION POLYMERS, CONDUCTIVITY, COLUMNAR LIQUID CRYSTALS

Abstract

El concepto de Cable Molecular ha sido muy explorado tanto sintéticamente como teóricamente en los últimos lustros. Los polímeros de coordinación (centros metálicos conectados por ligandos puente apropiados) son potencialmente aptos para desempeñar esta función. Si bien se han sintetizado sistemas con alta movilidad de carga, en general su procesamiento resulta aún dificultoso. Una posible vía para remontar este inconveniente es el procesamiento desde una fase cristal liquido, orientable en escala macroscópica. En el presente trabajo de Tesis Doctoral se sintetizaron polímeros de coordinación en base a Carboxilatos Bimetálicos de Rodio y Rutenio, interconectados por ligandos diversos, tales como Ligandos Nitrogenados Bidentados (Tetrazina, Fenazina y Bipiridina), Carboxilatos o Haluros. La elección de tales centros bimetálicos se basa en su conocida habilidad para generar fases Cristal Líquido y en la estructura electrónica que los compuestos de Rutenio presentan. Luego de caracterizarlos, se estudiaron sus propiedades Cristal Líquido, y se procesaron como fibras orientadas los complejos más promisorios. Finalmente, se midió la conductividad eléctrica de estas fibras. The concept of Molecular Wire has been widely explored both sintetically and theoretically in the past lustra. Coordination polymers (metallic centres connected by suitable bridging ligands) are potentially able to fulfill this role. Although systems with high charge mobility have been synthesized, their processing still remains difficult. A possible way to overcome this inconvenience is processing from a liquid crystalline phase, macroscopically oriented. In the present Doctoral Thesis work, coordination polymers based on Rhodium and Ruthenium carboxylates and Bidentate Nitrogenated Ligands (such as Tetrazine, Phenazine and Bipyridine) have been synthesized. The choice of these metallic centers lays in their known ability to generate Liquid Crystal phases and the electronic structure presented by Ruthenium compounds. After their characterization, their Liquid Crystal properties were studied, and the most promising complexes were processed as oriented fibers. Finally, the electrical conductivity of these fibers was measured. Fil: Rossi, Leonardo. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina.

Published

2017

5. Synthesis and proton conduction properties of lanthanide amino-sulfophosphonates

Author

Cabeza-Diaz, Aurelio, Bazaga-García, Montse, Pérez Colodrero, Rosario M., Salcedo, Inés R., Villemin, Didier, Olivera-Pastor, Pascual, and Losilla, Enrique R.

Subjects

Metal phosphonates, Polímeros, Proton conductivity, metal organic frameworks, Química orgániza - Congresos, Polymers, Amino-sulfophosphonates, phosphonates, Coordination Polymers, polymers synthesis

Abstract

Acidic groups-containing metal phosphonates exhibit a wide range of proton conductivity depending on the water content and functionality. Moreover, this property can be enhanced by appropriate post-synthesis chemical and/or thermal treatments [1,2]. In this work, focus is laid on properties derived from the combination of lanthanide ions with the amino-sulfophosphonate ligand (H2O3PCH2)2-N-(CH2)2-SO3H. Highthrough-put screening was used to reach the optimal synthesis conditions under hydrothermal conditions at 140 ºC. Isolated polycrystalline solids, Ln[(O3PCH2)2-NH-(CH2)2-SO3H]·2H2O (Ln= La, Pr, Sm, Eu, Gd, Tb and Er), crystallize in the monoclinic (La and Er) and orthorhombic (Pr, Sm, Eu, Gd and Tb) systems with unit cell volume of ~1200 and 2548 Å3 respectively. Their crystal structures, solved ab initio from X-ray powder diffraction data, correspond to different layered frameworks depending on the lanthanide cation size. Thus, compounds with orthorhombic symmetry show free acidic sulfonic pointing to the interlayer space, while La- and Er- derivatives display layered structures where both phosphonate and sulfonated groups are coordinated to the metal, leaving free P-OH groups. As consequence of this structural variability, different H-bond networks and proton transfer pathways are generated. Preliminary proton conductivity measurements have been carried out between 25 and 80 ºC at 70-95 % relative humidity. The sample exhibits conductivities near to 3.10-3 S.cm-1 and activation energies characteristics of a Grotthuss-type mechanism of proton transfer. Proyectos de investigación del ministerio MICINN, Españam(MAT2016-77648-R), Proyectos de la Junta de Andalucía (P12-FQM-1656), Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech.

Published

2016

6. Synthesis and crystal structure of two lead (II) complexes with 1,10-phenathroline ligand

Author

Olivera, Fiorella L. and Santillán, Guillermo A.

Subjects

Lead (II) complex, coordination polymers, 1,10-phenanthroline, 1,10-fenantrolina, nitrate coordination, coordinación por nitratos, puentes de hidrógeno, stacking interaction, interacciones, complejos de plomo (II), hydrogen bonding, polímeros de coordinación

Abstract

Se ha sintetizado dos complejos de coordinación mediante la reacción del nitrato de plomo (II) con la 1,10-fenantrolina en una mezcla de solventes (1:1) metanol/agua. Los cristales de estos complejos fueron obtenidos usando el método de difusión y caracterizados estructuralmente por difracción de rayos X. Ambos complejos cristalizaron en el grupo espacial monoclínico P2(1)/c. El análisis mediante difracción de rayos X muestra que en ambos complejos, la coordinación alrededor del ion plomo (II) es una estructura octaédrica distorsionada, donde el ion está unido a dos átomos de nitrógeno de la 1,10-fenantrolina, a tres átomos de oxígeno de los tres grupos nitrato y a un oxígeno de la molécula de agua. La diferencia entre los complejos radica en el modo de coordinación del ion nitrato cuando están presentes ácidos carboxílicos aromáticos. Debido al modo de coordinación de los nitratos, los complejos de plomo forman diferentes polímeros de coordinación, interacciones Pb-O, puentes de hidrógeno e interacciones π-π. Two coordination complexes have been synthesized by the reaction of lead nitrate (II) with 1,10-phenanthroline in methanol/water. The crystals of these complexes were obtained by using the diffusion method and structurally characterized by X-ray single crystal diffraction. Both complexes crystallized in the monoclinic space group P2(1)/c. The analysis by crystal X-ray diffraction reveals that in both complexes the coordination around the lead (II) ion is a distorted octahedral structure where the ion is bonded to the heterocyclic nitrogen atoms of chelating ligand 1,10-phenanthroline, three oxygen atoms of three nitrate groups and one oxygen from the water molecule. The difference between the complexes lies in the way of nitrate ion in presence of carboxylic acid aromatics. In addition, the crystal structure of complexes can be regarded as a 3D coordination polymer through Pb-O weak interactions, hydrogen bonds and π-π stacking interactions.

Published

2012