Isolation of a Pyridinium Alkoxy Ion Bridged Dimeric Zinc Complex for the Coupling Reactions of CO2 and Epoxides

Kim, Hoon Sik; Kim, Jai Jun; Lee, Byung Gwon; Jung, Ok Sang; Jang, Ho G.; Kang, Sang Ook

doi:10.1002/1521-3757(20001117)112:22<4262::aid-ange4262>3.0.co;2-z

Angewandte Chemie

2000

DOI: 10.1002/1521-3757(20001117)112:22<4262::aid-ange4262>3.0.co;2-z

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Isolation of a Pyridinium Alkoxy Ion Bridged Dimeric Zinc Complex for the Coupling Reactions of CO2 and Epoxides

Hoon Sik Kim¹,

Jai Jun Kim

Byung Gwon Lee

et al.

Abstract: Das Intermediat selbst ist eine aktive Spezies: Der Pyridiniumalkoxyionen‐verbrückte Zinkkomplex 1, der durch die Reaktion von [(C6H5N)2ZnBr2] und Propylenoxid entsteht, ist ein Intermediat bei der Kupplungsreaktion von CO2 und Epoxiden, die durch Zink(II)‐Komplexe in Gegenwart einer Lewis‐Base (hier Pyridin) katalysiert wird. Die Kristallstrukturanalyse von 1 sowie Tests zur Aktivität mit verschiedenen Zinkkomplexen mit substituierten Pyridinliganden liefern Erkenntnisse zum Mechanismus der Reaktion.

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Cited by 21 publications

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References 15 publications

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“…It follows that pyridine is essential for the formation of the polyester; its exact role, though, remains unclear at the moment. It may assist in the electrophilic attack of the cobalt-bonded acyl carbon atom on the epoxide ( 4 → 5 , Scheme ) . In addition, it seems likely that in such a mixture, a pyridine-induced back-biting reaction in compound 3 (e.g., by deprotonating the −OH group, Scheme ) is responsible for the observed slow formation of β-butyrolactone ( 8 ) in a side reaction.…”

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The Cobalt-Catalyzed Alternating Copolymerization of Epoxides and Carbon Monoxide: A Novel Approach to Polyesters

et al. 2002

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The metal-catalyzed synthesis of polyolefins, polyketones, and polycarbonates is well-known in academia and is already successfully applied in industrial processes. Still missing, however, is the metal-catalyzed synthesis of aliphatic polyesters, as one of the most important biodegradeable polymer families. We report here on the cobalt-catalyzed alternating copolymerization of propylene oxide and carbon monoxide, affording atactic and isotactic polyhydroxybutyrates (PHB). The postulated mechanism is supported by online ATR-IR analytics.

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The Cobalt-Catalyzed Alternating Copolymerization of Epoxides and Carbon Monoxide: A Novel Approach to Polyesters

et al. 2002

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Construction of Hierarchical Metal–Organic Frameworks by Competitive Coordination Strategy for Highly Efficient CO₂ Conversion

et al. 2019

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Hierarchical porosity and functionalization help to fully make use of metal–organic frameworks (MOFs) for their diverse applications. Herein, a simple strategy is reported to construct hierarchically porous MOFs through a competitive coordination method using tetrafluoroborate (M(BF4)x, where M is metal site) as both functional sites and etching agents. The resulting MOFs have in situ formed defect‐mesopores and functional sites without sacrificing their structure stability. The formation mechanism of the defect‐mesopores is elucidated by a combination of experimental and first‐principles calculation method, indicating the general feasibility of this new approach. Compared with the original microporous counterparts, the new hierarchical MOFs exhibit superior adsorption for the bulky dye molecules and catalytic performance for the CO2 conversion attributed to their specific hierarchical pore structures.

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Zinc‐Catalyzed Organic Synthesis: CC, CN, CO Bond Formation Reactions

Neumann

2012

Adv Synth Catal

169

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Zinc is the 24th most abundant element in the Earth’s crust. Since the discovery of pure zinc metal in the 18th century, the main application of zinc metal is as materials. Because zinc salts are abundant, cheap, non‐toxic, and exhibit environmentally benign properties, organic chemists have been interested in using zinc salts as catalysts in organic synthesis during the last three decades. Within this review, we have summarized the progress on applications of zinc salts in organic reactions. Our the target is to emphasize the special properties of zinc catalysts, and further promote the interest of organic chemists.

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Isolation of a Pyridinium Alkoxy Ion Bridged Dimeric Zinc Complex for the Coupling Reactions of CO2 and Epoxides

Cited by 21 publications

References 15 publications

The Cobalt-Catalyzed Alternating Copolymerization of Epoxides and Carbon Monoxide: A Novel Approach to Polyesters

The Cobalt-Catalyzed Alternating Copolymerization of Epoxides and Carbon Monoxide: A Novel Approach to Polyesters

Construction of Hierarchical Metal–Organic Frameworks by Competitive Coordination Strategy for Highly Efficient CO₂ Conversion

Zinc‐Catalyzed Organic Synthesis: CC, CN, CO Bond Formation Reactions

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Isolation of a Pyridinium Alkoxy Ion Bridged Dimeric Zinc Complex for the Coupling Reactions of CO2 and Epoxides

Cited by 21 publications

References 15 publications

The Cobalt-Catalyzed Alternating Copolymerization of Epoxides and Carbon Monoxide: A Novel Approach to Polyesters

The Cobalt-Catalyzed Alternating Copolymerization of Epoxides and Carbon Monoxide: A Novel Approach to Polyesters

Construction of Hierarchical Metal–Organic Frameworks by Competitive Coordination Strategy for Highly Efficient CO2 Conversion

Zinc‐Catalyzed Organic Synthesis: CC, CN, CO Bond Formation Reactions

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Product

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Construction of Hierarchical Metal–Organic Frameworks by Competitive Coordination Strategy for Highly Efficient CO₂ Conversion