Progress on transition metal catalyzed asymmetric hydroesterification, hydrocarboxylation, and hydroamidation reactions of olefins

Li, Junhua; Shi, Yian

doi:10.1039/d2cs00150k

Cited by 27 publications

(11 citation statements)

References 75 publications

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“…[68] Recently, Shi and coworkers reported a leading review on transition metal-catalyzed asymmetric hydrocarboxylation, hydroesterification and hydroamidation of olefins. [69] Nevertheless, a brief summary of Palladium-catalyzed asymmetric hydrocarbonylation of alkenes in the past decade is still included in this review.…”

Section: Asymmetric Hydrocarbonylationmentioning

confidence: 99%

“…In the past decades, remarkable progresses have been made in Palladium catalyzed asymmetric hydrocarbonylation of alkenes, [67] although high regio‐ and enantioselectivities can only be obtained from a limited number of styrenes in high temperatures or pressures [68] . Recently, Shi and coworkers reported a leading review on transition metal‐catalyzed asymmetric hydrocarboxylation, hydroesterification and hydroamidation of olefins [69] . Nevertheless, a brief summary of Palladium‐catalyzed asymmetric hydrocarbonylation of alkenes in the past decade is still included in this review.…”

Section: Asymmetric Hydrocarbonylationmentioning

confidence: 99%

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Palladium‐Catalyzed Enantioselective Hydrofunctionalization of Alkenes: Recent Advances

Yin,

Li,

Guo

et al. 2023

Eur J Org Chem

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Palladium‐catalyzed asymmetric hydrofunctionalization of alkenes is one of the most powerful and straightforward methods to forge a new C‐H bond and a new C‐X (X = C, N, O, F, Si etc) bond, which provides an efficient way to obtain valuable enantioenriched molecules from cheap and readily available feedstocks. Catalytic asymmetric hydrofunctionalization of simple alkenes is challenging but still highly sought after. This review will mainly focus on the recent advances in Palladium catalyzed asymmetric hydrofunctionalization of alkenes over the past decade, including hydroamination, hydrooxygenation, hydrofluorination, hydrosilylation, hydroarylation, hydroalkenylation and hydrocarbonylation.

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Section: Asymmetric Hydrocarbonylationmentioning

confidence: 99%

Section: Asymmetric Hydrocarbonylationmentioning

confidence: 99%

Palladium‐Catalyzed Enantioselective Hydrofunctionalization of Alkenes: Recent Advances

Yin,

Li,

Guo

et al. 2023

Eur J Org Chem

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“…Carboxylic esters are essential bulk chemicals that find wide‐ranging applications in drug intermediates, plasticisers, lubricants, and various other fields [1–2] . Transition metal‐catalysed alkoxycarbonylation (also known as hydroesterification) with alkenes, alcohols and CO is one of the most effective methods to synthesise these high‐value‐added esters owing to the perfect atom economy and wide availability of raw materials [3–5] . To date, many transition metals, including Rh, [6–7] Ru, [8–9] Pt, [10] Co, [11] and Pd, [12–14] have been found to be active catalysts in the alkoxycarbonylation of alkenes.…”

Section: Introductionmentioning

confidence: 99%

“…[1][2] Transition metal-catalysed alkoxycarbonylation (also known as hydroesterification) with alkenes, alcohols and CO is one of the most effective methods to synthesise these high-value-added esters owing to the perfect atom economy and wide availability of raw materials. [3][4][5] To date, many transition metals, including Rh, [6][7] Ru, [8][9] Pt, [10] Co, [11] and Pd, [12][13][14] have been found to be active catalysts in the alkoxycarbonylation of alkenes. Among these metal catalyst systems, the Pd-based homogeneous system has gained significant attention due to its high catalytic activity and versatile substrate adaptability.…”

Section: Introductionmentioning

confidence: 99%

Development of Efficient Ru/Deep Eutectic Solvent Catalytic System for Alkoxycarbonylation of Alkene without Acid Additives

Liu,

Yang,

Zeng

et al. 2023

ChemistrySelect

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The catalytic alkoxycarbonylation of alkenes is an attractive, atom‐efficient method for producing value‐added carboxylic esters. However, the conventional catalyst system for this reaction needs coordination with a noble metal, sensitive ligands and proton acid additives. Therefore, the design of a simple and efficient catalyst system without any acid additives under mild conditions is still a major challenge. In this work, a simple ruthenium/deep eutectic solvent catalytic system was developed to effectively catalyse the alkoxycarbonylation reaction without any sensitive ligands or acid additives under mild conditions. The conversion of 1‐hexene reached 99.0 %, and the ester selectivity was 99.1 %, much higher than that of Ruthenium carbonyl without deep eutectic solvent. The excellent performance of the catalytic system could be ascribed to the form of the ruthenium active species [Ru(CO)2Br3]− in the deep eutectic solvent. This innovative catalyst system presents a significant advancement in the alkoxycarbonylation reaction, eliminating the use of acid additives and delicate ligands.

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“…Over time, synthetic approaches that are based on either enolates (Figure B,a) or α-halo carbonyl compounds (Figure B,b) have played a pivotal role in the advancement of the discipline with the help of transition metal-based asymmetric catalysis. , More recently, orthogonal approaches that exploit the elevated reactivity of an acyl donor have successfully furnished the target structure via stereoselective introduction of a benzylic moiety (Figure B,c) . These methods, in combination with other types of catalytic approaches, have significantly contributed to providing an access to valuable α-aryl carbonyl compounds in an enantiopure form …”

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confidence: 99%

Stereospecific Acylative Suzuki–Miyaura Cross-Coupling: General Access to Optically Active α-Aryl Carbonyl Compounds

et al. 2023

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A novel strategy for the stereospecific Pd-catalyzed acylative cross-coupling of enantiomerically enriched alkylboron compounds has been developed. The protocol features an extremely high level of enantiospecificity to allow facile access to synthetically challenging and valuable chiral ketones and carboxylic acid derivatives. The use of a sterically encumbered and electronrich phosphine ligand proved to be crucial for the success of the reaction. Furthermore, on the basis of experimental and computational studies, a unique mechanism for the transmetalation, assisted by the noncovalent interactions of the C(sp 3 )-based organoboron reagent, has been identified.

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Progress on transition metal catalyzed asymmetric hydroesterification, hydrocarboxylation, and hydroamidation reactions of olefins

Abstract: This review provides a brief summary of the development of transition metal catalyzed asymmetric hydrocarboxylation, hydroesterification, and hydroamidation of olefins with CO and its surrogates.

Cited by 27 publications

References 75 publications

Palladium‐Catalyzed Enantioselective Hydrofunctionalization of Alkenes: Recent Advances

Palladium‐Catalyzed Enantioselective Hydrofunctionalization of Alkenes: Recent Advances

Development of Efficient Ru/Deep Eutectic Solvent Catalytic System for Alkoxycarbonylation of Alkene without Acid Additives

Stereospecific Acylative Suzuki–Miyaura Cross-Coupling: General Access to Optically Active α-Aryl Carbonyl Compounds

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