Au-Containing Coordination Polymers Based on Polyphosphorus Ligand Complexes

Brake, Helena; Peresypkina, Eugenia V.; Вировец, А. В.; Kremer, Werner; Klimas, Christian; Schwarzmaier, Christoph; Scheer, Manfred

doi:10.1021/acs.inorgchem.1c00494

Cited by 8 publications

(8 citation statements)

References 82 publications

(50 reference statements)

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“…This method is the most widely used for printing polymers because it involves embedding a template molecule entirely in the matrix material and then removing the imprinted material completely after polymer chains [ 13 ]. There are many commercial polymeric materials and nanomaterials on the market today that are inert, and as such, surface modification is essential to boost their adherence and to soak properties by adding polar as well as other structural features to their surfaces [ 16 ]. According to commercial polymeric materials, the number of publications on nanomaterials and polymers has increased exponentially since their inception [ 17 ].…”

Section: Introduction To Coordination Polymersmentioning

confidence: 99%

“…ere are many commercial polymeric materials and nanomaterials on the market today that are inert, and as such, surface modification is essential to boost their adherence and to soak properties by adding polar as well as other structural features to their surfaces [16]. According to commercial polymeric materials, the number of publications on nanomaterials and polymers has increased exponentially since their inception [17].…”

Section: Introduction To Coordination Polymersmentioning

confidence: 99%

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[Retracted] The Construct and Interpretation of Chelated Coordination Polymers and Their Use in Nanomaterials Research

Omran¹

2022

Journal of Environmental and Public Health

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Presently, an important step from basic research to practical applications is synthesizing nanostructured materials. Metal-organic structures, as well as coordination polymers, are a diverse group of materials with a wide range of potential and properties applications. It has been difficult to get these materials into commercial use because of many drawbacks. Polymers containing chelated units are described and assessed for their advancements and problems in preparation, properties, and structure. Here, a proposed approach based on designing coordination polymeric materials with chelated units using the metal-ligand approach (CPM-CU-MA) has been introduced for a columnar-layered plan, supramolecular components, and building levels. Nanocomposite materials can be formed through the thermal transformation of coordination polymers based on donor atoms. The polymeric metal chelates (PMCs) are categorized according to luminescent coordination polymer (LCoP) development. It is classified as macrocyclic intracomplex, polynuclear, and molecular according to its macrostructure. Supramolecular networks (SMNs) can be transformed into a coordination polymer by introducing cyclo-dehydrogenation of natural building blocks on a surface. The structure-property connections of LCPs can influence a framework of liquid crystal display (LCP) that has been given based on LC phase modulators with a large modulation depth and has useful applications in LC lens. In the spatial organization of PMCs, the main focus is on the commonalities and contrasts between higher- and lower-molecular-weight chelates based on molecularly imprinted sensors (MISs) and nanomaterial sensors for a wide range of uses. New functional nanoparticles based on the molecular components have exciting potential, as demonstrated by these findings based on parameters risk factors for human health, hazards reduction in the environment, lack of cost-effectiveness, environmental sustainability, and bioavailability of polymers with an overall performance of 95.3%.

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Section: Introduction To Coordination Polymersmentioning

confidence: 99%

Section: Introduction To Coordination Polymersmentioning

confidence: 99%

[Retracted] The Construct and Interpretation of Chelated Coordination Polymers and Their Use in Nanomaterials Research

Omran¹

2022

Journal of Environmental and Public Health

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“…[11] Moreover, the metal center and therefore the associated metal salt has a considerable impact on the system as well. Among coinage metals, gold being a two-coordinate cation has a linear or planar coordination geometry around the metal center, [12] scarcely providing sufficient coordination sites. Copper(I) cations supply from three to four coordination sites, however, copper salts either contain copper complex cations with coordinated solvent molecules or dissolve in organic media only upon complexation with solvents as for instance acetonitrile, which would compete with the targeted organic ligand for coordination and uncontrollably block coordination sites at the metal center.…”

Section: Introductionmentioning

confidence: 99%

Across the Dimensions: A Three‐Component Self‐Assembly of Pentaphosphaferrocene‐based Coordination Polymers

Grill

Dienauer

Peresypkina

et al. 2023

Chemistry A European J

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Pentaphosphaferrocenes [Cp R Fe(η 5 -P 5 )] (Cp* = η 5 -C 5 Me 5 ) (A), Cp'' = η 5 -C 5 H 3 tBu 2 -1,3 (B)) are excellent building blocks for polymeric assemblies in supramolecular chemistry in combination with coinage metal salts of weakly coordinating anions such as AgSbF 6 . Adding rigid aromatic dinitriles ortho/meta/para-(NC) 2 C 6 H 4 in a one-pot reaction between [Cp R Fe(η 5 -P 5 )] and AgSbF 6 leads to various coordination polymers (CPs) by a three-component self-assembly. The sterical demand of the differently substituted cyclopentadiene ligands as well as the rigid constitution of the isomeric dinitriles (NC) 2 C 6 H 4 play a key role in the formation of the isolated CPs. All CPs were characterized by NMR spectroscopy, mass spectrometry, elemental analysis, and single-crystal Xray diffraction.

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“…After the appreciation of coordination chemistry by awarding Nobel Prize to Alfred Werner, the field itself demands as an effective member in the club of material science. [1][2][3][4][5] Actually, coordination compounds are hybrid in nature as these are composed of both the inorganic metal ion and organic ligand. Thus, by varying the organic ligands and metal ions, one can easily tailor the structure as well as the overall properties of the compound.…”

Section: Introductionmentioning

confidence: 99%

Exploitation of Structure‐Property Relationships towards Multi‐Dimensional Applications of a Paddle‐Wheel Cu(II) Compound

et al. 2022

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Dedicated to Professor Chittaranjan Sinha on the occasion of his 61st birthdayThe systematic understanding of structure-property correlations of coordination compounds can be utilized for their potential applications. To rationalize this concept, a mixed ligand based Cu(II) compound [Cu 2 (nac) 4 (4-nvp) 2 ](1) (Hnac = 3-(1naphthyl)acrylic acid and 4-nvp = 4-(1-naphthylvinyl)pyridine) has been synthesized and single crystal is obtained by the simple layering technique. Compound 1 has fascinating paddle wheel structure which undergoes weak CÀ H•••π interactions to generate a three-dimensional (3D) supramolecular aggregate. An electrical analysis, i. e. current-voltage (I-V) measurement of this material, exhibited rectifying behavior in the forward bias, which affirms the formation of a Schottky diode. Impedance spectroscopy (IS) analysis has also been performed to get insight into the diode application. Besides, the fluorescence emission of 1 is quenched by 2,4,6-trinitrophenol (TNP) and 2,4dinitrophenol (DNP), among other nitroaromatics, and the maximum quenching efficiency is observed for TNP (98 %). The limits of detection (LOD) are determined by following 3σ methods and are found to be 0.77 μM (TNP), and 0.85 μM (DNP). Interestingly, compound 1 also exhibits biomimetic catechol oxidase-like activity for the oxidation of catechol to quinone. Therefore, the synthesized compound can be considered as a promising candidate for multi-functional applications in material science.

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Au-Containing Coordination Polymers Based on Polyphosphorus Ligand Complexes

Cited by 8 publications

References 82 publications

[Retracted] The Construct and Interpretation of Chelated Coordination Polymers and Their Use in Nanomaterials Research

[Retracted] The Construct and Interpretation of Chelated Coordination Polymers and Their Use in Nanomaterials Research

Across the Dimensions: A Three‐Component Self‐Assembly of Pentaphosphaferrocene‐based Coordination Polymers

Exploitation of Structure‐Property Relationships towards Multi‐Dimensional Applications of a Paddle‐Wheel Cu(II) Compound

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