Efficient construction of C–C bonds from aryl halides/aryl esters with arylboronic acids catalysed by palladium(II) thiourea complexes

Sambamoorthy, Manikandan Thimma; Ramesh, Rengan; Grzegorz, Malecki Jan

doi:10.1002/aoc.5181

Cited by 7 publications

(46 citation statements)

References 50 publications

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Section: Organosulphur Ligandsmentioning

confidence: 99%

“…Thiourea ( L40 ) is considered as a versatile ligand framework (Figure 5) since it has shown its potential in analytical chemistry, catalysis and pharmaceutical drugs [47] . Ligands L40 ‐ L42 come under this category [47–49] L40 is commercially available [48] . The reaction of phenyl isothiocyanate with 2‐aminothiazole in dimethylformamide (DMF) medium afforded the ligand L41 (Figure 5) in high yields [47] …”

Section: Organosulphur Ligandsmentioning

confidence: 99%

“…Li 2 PdCl 4 is reacted with L28 / L81 in presence of NaOAc (sodium acetate) for 48 hours at room temperature to obtain (Table 3) complex 51 / 52 in which the ligand coordinates in a bidentate (N, E) mode [35] . [Pd(PPh 3 ) 2 Cl 2 ] is used for synthesizing complex 53 by stirring with L41 in methanol at room temperature for 24 hours [47] . This reagent is also used to react with L33 to obtain complex 54 [42] .…”

Section: Coordination Compounds Of Organochalcogen Ligands With Nicke...mentioning

confidence: 99%

“…However, in order to widen the substrate scope, some of the catalysts are used to mediate the reactions between various heteroaryl halides and arylboronic acids. The heteroarene ring systems that have been selected for investigation include pyridines, [26,32,33,35,36,37,47] pyrimidines, [55,73] thiophenes, [35,55] imidazoles, quinoline [37,73] etc. In some cases, electron donating, neutral and withdrawing as well as sterically hindered groups on the (hetero)aryl halides [26,32,33] and (hetero)arylboronic acid [50,47] are also tolerated in the reactions and formation of the coupled products occur in excellent yields.…”

Section: Substrate Scope In Catalysismentioning

confidence: 99%

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Molecular Organosulphur, Organoselenium and Organotellurium Complexes as Homogeneous Transition Metal Catalytic Systems for Suzuki Coupling

et al. 2022

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During last two decades, researchers have employed organochalcogen compounds as ligands for the development of pre‐formed chalcogen ligated molecular complexes. During 2013–2020, various chalcogen containing homogenous catalytic systems for Suzuki Miyaura cross‐coupling reaction have been synthesized. The review provides insights into the synthetic methodologies for the preparation of organochalcogen ligands and their transition metal complexes. Another central aspect discussed is the application of such catalytic systems in Suzuki Miyaura coupling. Rationalization about the effect of temperature, substrate scope, organoborane derivatives and aryl halides employed has been elaborated. Effect of binding mode, ligand framework, chalcogen donor atom, metal and many other aspects that influence the catalytic potential of various systems have also been covered. Various other aspects such as green catalysis, use of non‐conventional energy sources have also been analyzed.

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Section: Organosulphur Ligandsmentioning

confidence: 99%

Section: Organosulphur Ligandsmentioning

confidence: 99%

Section: Coordination Compounds Of Organochalcogen Ligands With Nicke...mentioning

confidence: 99%

Section: Substrate Scope In Catalysismentioning

confidence: 99%

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Molecular Organosulphur, Organoselenium and Organotellurium Complexes as Homogeneous Transition Metal Catalytic Systems for Suzuki Coupling

et al. 2022

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“…2019 年, Rengan 课题组 [28] 利用苯基噻唑基硫脲和 PdCl 2 (PPh 3 ) 2 反应, 制备了一种硫脲钯配合物, 以其作为催化剂, 在 1 mol%催化剂用量下, 实现了苯酯和芳基硼酸的 Suzuki-Miyaura 偶联(Scheme 8).…”

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Recent Advance of Ketones Synthesis from Carboxylic Esters

Yi¹,

Sun²,

Hu³

et al. 2022

Chinese Journal of Organic Chemistry

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Carboxylic esters are widely obtained, low-cost and readily available. Their conversions have attracted widespread attention. Ketones are important synthetic intermediates, which can be used to synthesize complicated drug molecules and functional materials with biological activity. In recent twenty years, great progress has been made in the synthesis of ketones from carboxylic esters. This review mainly covers the methods of converting carboxylic esters into ketones in recent years. Keywords ketones; carboxylic esters; functionalization 羧酸酯类化合物性质稳定、廉价易得, 广泛应用于医药、农药以及材料中, 是一类非常重要的化工原料. 羧酸酯反应活性较高, 可以作为底物广泛用于过渡金属催化的反应中. 金属催化剂可以选择性地活化 C(O)-O 键, 经脱羰后与不同的亲核试剂反应, 构建 C-C [1][2][3][4][5] , C-N [6] , C-Si [7][8] , C-B [7] 键等; 也可以选择性地活化 C(O)-O 键后, 保留羰基, 获得酮或者酰胺 [9] 等; 此外, 羧酸酯还可以选择性地发生 C-O 键断裂, 经脱羧作为芳基或者烷基源, 构建新的 C-C 键 [3,10] (Scheme 1). 因此, 羧酸酯的转化方式非常多, 本文重点关注了羧酸酯合成酮类化合物的研究进展.酮类化合物广泛存在于天然产物和生物活性分子以及药物分子中 [11][12] , 例如硝唑芬酮、芳香烃受体(AhR) 激动剂(ITE)以及 Topsentin 等在降血脂、神经保护、抗肿瘤、抗癌等方面有很好的功效. 因此, 发展酮类化合图式 1 几种过渡金属催化羧酸酯的转化方式 Scheme 1 Several transition metal catalyzed conversions of carboxylic esters 物的高效合成方法具有重要意义. 传统上, 酮类化合物的合成方法有很多, 如醇的氧化、Friedel-Craft 酰基化、炔基水解以及金属试剂与羧酸衍生物的反应等. 另外, 过渡金属催化芳基卤化物的羰基化反应 [13][14][15][16] 也是近期发展起来构建芳酮的常用方法. 其中由羧酸衍生物如酰

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Click Chemistry for the Generation of Combination of Triazole Core and Thioether Donor Site in Organosulfur Ligands: Applications of Metal Complexes in Catalysis

Bhatt,

Tyagi,

Purohit

et al. 2024

Chemistry An Asian Journal

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During the last two decades, organosulfur compounds have been used in the field of transition metal catalysis. Some of such compounds are known for their ability to withstand their exposure to air and moisture. These compounds are very important ligands. They may be obtained using simple and smooth modular synthetic protocols which include nucleophilic substitution reactions. The development of click chemistry represents a new era of innovation. It is a lighthouse of reliable and efficient reactions. In recent past, click chemistry has also been applied for the synthesis of such organosulfur ligands specifically suited for the dynamic field of transition metal catalysis. In order to synthesize novel compounds containing sulfur and triazole ring, click chemistry is an advantageous methodology over other approaches. This article covers the general features and uses of this methodology for the development of catalytically active organosulfur compounds. The significant advances in the design of transition metal catalytic systems utilizing such ligands, their use in the catalysis of many chemical transformations are also covered in this article. Effort has also been made to present a comparative overview of the performances of such catalysts vis‐à‐vis the catalysts designed commonly used ligands. Catalytic performances have been discussed thoroughly in order to identify the impact of ligand architecture on efficacy of the catalyst. Effect of reaction conditions (such as time, temperature etc.) and mechanistic aspects have also been rationalized.

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Efficient construction of C–C bonds from aryl halides/aryl esters with arylboronic acids catalysed by palladium(II) thiourea complexes

Cited by 7 publications

References 50 publications

Molecular Organosulphur, Organoselenium and Organotellurium Complexes as Homogeneous Transition Metal Catalytic Systems for Suzuki Coupling

Molecular Organosulphur, Organoselenium and Organotellurium Complexes as Homogeneous Transition Metal Catalytic Systems for Suzuki Coupling

Recent Advance of Ketones Synthesis from Carboxylic Esters

Click Chemistry for the Generation of Combination of Triazole Core and Thioether Donor Site in Organosulfur Ligands: Applications of Metal Complexes in Catalysis

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