Recent Trends in Metallopolymer Design: Redox‐Controlled Surfaces, Porous Membranes, and Switchable Optical Materials Using Ferrocene‐Containing Polymers

Gallei, Markus; Rüttiger, Christian

doi:10.1002/chem.201800412

Cited by 94 publications

(51 citation statements)

References 137 publications

(331 reference statements)

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“…Metallopolymers are functional polymers with metal centers in their frameworks, which can integrate both the functions of metal elements and the properties of polymers . Many different metal‐containing building blocks and polymer topologies have been reported .…”

Section: Methodsmentioning

confidence: 99%

Synthesis of Negative‐Charged Metal‐Containing Cyclomatrix Polyphosphazene Microspheres Based on Polyoxometalates and Application in Charge‐Selective Dye Adsorption

Zhang

Miao

Yan

et al. 2018

Macromol. Rapid Commun.

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A negative‐charged, metal‐containing cyclomatrix polyphosphazene microsphere (MCPM) is synthesized using the strategy of precipitation polymerization of di‐functionalized polyoxometalates (POMs) and hexachlorocyclotriphosphazene. The chemical structure of these MCPMs is well characterized by 13C MAS NMR and 31P MAS NMR, as well as FT‐IR, electron microscopy, and X‐ray photoelectron spectroscopy. The covalent grafting of the rigid POMs clusters into the framework of these microspheres prevents the collapsing of the pores, making these MCPMs porous materials. Taking advantage of the porous structure and the negative charges in the frameworks, these materials show interesting charge‐selective adsorption properties, as demonstrated by the selective adsorption of positive‐charged dyes in comparison with negative‐charged dyes.

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Section: Methodsmentioning

confidence: 99%

Synthesis of Negative‐Charged Metal‐Containing Cyclomatrix Polyphosphazene Microspheres Based on Polyoxometalates and Application in Charge‐Selective Dye Adsorption

Zhang

Miao

Yan

et al. 2018

Macromol. Rapid Commun.

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“…With this method, high‐fidelity colloid micropatterns can be formed in seconds. This work expands the utility of ferrocene‐based redox‐controlled surfaces, which was pioneered by the Whitesides group and has since then seen quite exciting new development in the field of metallopolymers …”

Section: Introductionmentioning

confidence: 78%

Electrochemically Triggered Interfacial Deposition/Assembly of Aqueous‐Suspended Colloids

Iqbal

Zhan

2020

ChemElectroChem

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Following our recent work on polyelectrolyte deposition on ferrocene‐terminated self‐assembled monolayers (Langmuir 2018, 34, 12776–12786), we seek in this study to answer the following question: How would aqueous‐suspended colloids respond to the same electrochemical trigger – ferrocene oxidation? Using carboxylic‐terminated polystyrene nano‐/microbeads as a model colloid, we confirm first their transfer to and deposition at such redox‐active surfaces. Key factors involved, including the starting electrode surfaces, colloid size, range/duration of applied potential, and small supporting electrolytes, are examined in detail. A particularly interesting finding among these is the superior efficiency of the electrochemically triggered assembly compared to the electrically driven process. Taking advantage of this feature, we demonstrate fast, high‐fidelity colloid micropattern formation on electrodes at the end.

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“…Elbert et al [41] reported that it is possible to reversibly modulate the catalytic activity of Grubbs Second Generation catalyst for the ROMP (ring-opening metathesis polymerization) reaction of nerbornene when it is immobilized on the surface of SiO 2 NPs functionalized with poly (vinylferrocene). In fact, when poly(vinylferrocene) is oxidized, it increases its hydrophilicity and the polymeric network swells [42] creating a thicker shell layer that hinders the diffusion of apolar molecules (such as nerbornene) toward the catalyst. As a consequence, after oxidation of the poly(vinylferrocene), the ROMP reaction can be not catalyzed by the immobilized Grubbs Second Generation catalysts, which are not accessible to norbonene monomers.…”

Section: Switchable Catalysis Based On Variation Of Ph Ionic Strengtmentioning

confidence: 99%

Switchable Stimuli-Responsive Heterogeneous Catalysis

Vassalini

Alessandri

2018

Catalysts

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Heterogeneous catalytic systems based on the use of stimuli-responsive materials can be switched from an "on" active state to an "off" inactive state, which contributes to endowing the catalysts with unique functional properties, such as adaptability, recyclability and precise spatial and temporal control on different types of chemical reactions. All these properties constitute a step toward the development of nature-inspired catalytic systems. Even if this is a niche area in the field of catalysis, it is possible to find in literature intriguing examples of dynamic catalysts, whose systematic analysis and review are still lacking. The aim of this work is to examine the recent developments of stimuli-responsive heterogeneous catalytic systems from the viewpoint of different approaches that have been proposed to obtain a dynamic control of catalytic efficiency. Because of the variety of reactions and conditions, it is difficult to make a quantitative comparison between the efficiencies of the considered systems, but the analysis of the different strategies can inspire the preparation of new smart catalytic systems.Catalysts 2018, 8, 569 2 of 25 fields [6] and mechanical stress [7], have also been exploited. A large variability can also be observed in the type of system response: variations of chemical properties, solubility, shape, volume, color, aggregation state, electrical properties, magnetic properties, mechanical properties, etc. are all possible. Thanks to this high versatility, artificial smart materials have found application in various sectors [8], ranging from medicine to national security and structural engineering [9]. They are commonly employed for drug delivery [10], self-healing [11], sensing [12], actuations [13], information storage [14], etc. Their use for catalytic purposes has been remarkably less investigated, even if heterogeneous catalysis can fully take advantage of the dynamic behavior of smart materials. For example, it is possible to make a catalyst to pass from a state of activity (an "on" state) to a state of inertness (an "off" state) in a controlled way, with a precise temporal control, obtaining switchable catalysis. In other circumstances, the possibility of modulating the reaction rate in a continuous way, regulating the amount of accessible active sites and accelerating or lowering the reaction rate in a non-discrete way, is more interesting, and in this case we can also exploit stimuli-responsive materials. It is also possible to create microenvironments in which the reaction occurs preferentially, accomplishing a spatial control on the reaction development. In addition, the responsiveness of the employed systems can be exploited to improve the recyclability of the catalytic system, making the catalyst separation from the reaction medium and its reuse easier.In this review, we analyze some of the latest works on dynamic systems in the field of heterogeneous catalysis. Many more examples can be found for homogeneous catalysis, but most of them have been already analyzed in previ...

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Recent Trends in Metallopolymer Design: Redox‐Controlled Surfaces, Porous Membranes, and Switchable Optical Materials Using Ferrocene‐Containing Polymers

Cited by 94 publications

References 137 publications

Synthesis of Negative‐Charged Metal‐Containing Cyclomatrix Polyphosphazene Microspheres Based on Polyoxometalates and Application in Charge‐Selective Dye Adsorption

Synthesis of Negative‐Charged Metal‐Containing Cyclomatrix Polyphosphazene Microspheres Based on Polyoxometalates and Application in Charge‐Selective Dye Adsorption

Electrochemically Triggered Interfacial Deposition/Assembly of Aqueous‐Suspended Colloids

Switchable Stimuli-Responsive Heterogeneous Catalysis

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