Ionic Core−Shell Dendrimers with an Octacationic Core as Noncovalent Supports for Homogeneous Catalysts

Coevering, Rob van de; Alfers, A.P.; Meeldijk, Johannes D.; Martínez‐Viviente, Eloísa; Pregosin, Paul S.; Gebbink, Robertus J. M. Klein; Koten, Gerard van

doi:10.1021/ja060079t

Cited by 57 publications

(33 citation statements)

References 25 publications

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“…Reaction of the Pd-Cl dendrimer 30 with eight equivalents of AgBF 4 generated 31. The structures of the dendrimers 30 and 31 are shown in Scheme 8 and have been characterized by multinuclear NMR spectroscopic studies, including DOSY experiments, and by ESI mass spectrometry [53]. Although halide scrambling is observed, the MS data clearly indicate that an octamer was formed and was stable in solution.…”

Section: Dendrimers Containing Non-ferrocene Organometallic Groups Inmentioning

confidence: 99%

“…21. All of the protected dendrimers (52)(53)(54)(55) were synthesized via reaction of a pendent amine on the dendrons with a mono-or bis(chlorocarbonyl)ferrocene in the presence of Et 3 N and isolated in good to excellent yields (54-92%). The deprotection reactions to generate the free carbohydrate dendrimers 56-59 were quantitative.…”

Section: Core Functionalization Of Dendrimers With Organometallic Spementioning

confidence: 99%

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Where Organometallics and Dendrimers Merge: The Incorporation of Organometallic Species into Dendritic Molecules

2005

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This review will describe the ongoing efforts being made to incorporate organometallic fragments into the framework of dendrimers. While purely dendritic organic molecules are well known and well studied, species incorporating organometallic moieties potentially offer many benefits that are not available to only organic containing dendrimers. For example, catalytic or redox active organometallic functions can be included in the dendritic framework and impart these characteristics onto the dendrimer. This report will give an overview of the latest developments in this field by highlighting selected examples that detail novel synthetic strategies or dendrimer construction methodologies, interesting practical applications or address specific problems associated with organometallic dendrimers.

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Section: Dendrimers Containing Non-ferrocene Organometallic Groups Inmentioning

confidence: 99%

Section: Core Functionalization Of Dendrimers With Organometallic Spementioning

confidence: 99%

Where Organometallics and Dendrimers Merge: The Incorporation of Organometallic Species into Dendritic Molecules

2005

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“…Non-covalent anchoring of catalysts to molecular supports; "tulips in a vase" approach [46,55,63] Next to the covalent attachment of catalytic groupings to nanosized supports, we also studied an approach in which the catalytic unit(s) and support could be realized by self-assembling rather than by divergent synthesis. To this end, we synthesize core-shell material with a distinct rigid, octa-cationic core and a neutral shell comprising dendritic wedges.…”

Section: Proof-of-principlementioning

confidence: 99%

Highlights of 45 years of research: A personal account

Koten

2017

Journal of Organometallic Chemistry

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a b s t r a c tThis part of my biosketch, which I prepared on invitation by the Editors, made me realize again how entangled my interest for doing research and teaching and management have been over the years. Working together with my students and colleagues has always been a strong motivation and pleasure for me and I hope that this sketch of our research reflects our common enthusiasm for what we achieved.In hindsight, trying to overlook almost 45 years of research, various main themes can be discerned that marked my fundamental research in the subsequent periods at TNO Utrecht (1968e1977), University of Amsterdam (1977e1986) and University of Utrecht (1986e2007). Overarching has been my preference and fascination for working with nitrogen based ligands (culminating in the design and use of the NCNpincer ligand platform, vide infra), the study of synthetic routes for organometallics (most importantly trans-and cyclo-metallation routes), the use of NMR for the study of the stereochemistry of organometallics (cf. the early use of 107,109 Ag NMR for detecting and following the formation of coordination compounds with helical structures), chemistry involving organometallic radicals (cf. organozinc and aluminum a-diimine chemistry, development of b-lactam synthesis routes), self-assembly of organometallics to discrete aggregated species (cf. organo-Cu, -Li and cuprate chemistry), the development of palladium complexes and homogeneous metal catalysts with simple amine ligands, the synthesis of, and catalysis with, dendrimers decorated with organometallic catalysts, mimicking the active center of metallo-enzymes as well as the synthesis of organometal-lipase hybrids for catalysis.Being educated in an "eco"-system of contract research, in concert with fundamental research, the results of the above outlined items were not only published in journals with peer review (>850) but also in the patent literature (>40). Most important were the results reported in over 85 PhD theses that I had the privilege to supervise as PI. The references refer to key-papers describing this body of work. The respective reference numbers are given at the heading of each paragraph. The full list of publications in peer reviewed Journals can be found in http://www.gerardvankoten.nl and www.uu.nl/staff/GvanKoten.© 2017 The Author. Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). GeneralAs indicated above, nitrogen ligands fascinated me throughout my research career, right from the very beginning. Whereas in my early days ligands with phosphorous donor atoms were the dominating "privileged" ligands in inorganic and organometallic chemistry; they have remained so up until now. However, my interest for nitrogen-containing ligands was fortified for a number of reasons; i, Nitrogen is one of the smallest donor atoms. This results in short N-metal bond distances thus affecting/interfering with its (N)R-substituents (also because of the short N-C bonds, viz. N-cone angle c...

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“…[6][7][8][9][10] The robustness of the ECE-pincer metal complexes make them attractive candidates for processes for which recycling and reuse is a prerequisite. Various soluble supports have already been used for the immobilization and recycling of pincer-based metal catalysts, among which are hyperbranched polymers, [9,11] oligo(ethylene glycol), [12] dendronized polymers, [13] carbosilane dendrimers, [14] cartwheel molecules, [8,15] polycationic dendrimers, [16] and soluble polymers. [10,17] Recently, we as well as others have reported on the grafting of ECE-pincer metal complexes on silica and on their use in aldol-type [18,19] and Heck reactions.…”

Section: Introductionmentioning

confidence: 99%

PCP‐ and SCS‐Pincer Palladium Complexes Immobilized on Mesoporous Silica: Application in CC Bond Formation Reactions

et al. 2007

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À , E= PPh 2 and SPh} tethered to a trialkoxysilane moiety through a carbamate linkage were immobilized on ordered mesoporous silicas SBA-15 and MCM-41 using a grafting process. The resulting hybrid materials were characterized by IR spectroscopy, solid-state CP/MAS NMR ( Si), and elemental analyses. These analyses showed the integrity of the pincer-metal complexes on the supports, which highlights their stability under the applied immobilization conditions. An H-bonding interaction between the carbamate carbonyl group of the complex and free silanol groups on the silica surface was also established. The hybrid materials were found to act as Lewis acid catalysts in the aldol reaction between methyl isocyanoacetate and benzaldehyde. SBA-15 modified with the PCP-pincer Pd complex was used in up to five runs without loss of activity. Control experiments showed the true heterogeneous nature of the catalyst in this reaction. Nitrogen physisorption data, XRD, and TEM/EDX analyses of the hybrid materials revealed that the mesoporous structure of these materials was retained during the immobilization process as well as during catalysis.

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Ionic Core−Shell Dendrimers with an Octacationic Core as Noncovalent Supports for Homogeneous Catalysts

Cited by 57 publications

References 25 publications

Where Organometallics and Dendrimers Merge: The Incorporation of Organometallic Species into Dendritic Molecules

Where Organometallics and Dendrimers Merge: The Incorporation of Organometallic Species into Dendritic Molecules

Highlights of 45 years of research: A personal account

PCP‐ and SCS‐Pincer Palladium Complexes Immobilized on Mesoporous Silica: Application in CC Bond Formation Reactions

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