Carbonylation of Aryl Halides in the Presence of Heterogeneous Catalysts

IF 1.1 Q3 CHEMISTRY, MULTIDISCIPLINARY

Current Green Chemistry Pub Date : 2019-07-31 DOI:10.2174/2213346106666190321141550

Béla Urbán, M. Papp, R. Skoda‐Földes

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引用次数: 5

Abstract

Palladium-catalyzed carbonylation in the presence of organic and organometallic nucleophiles serves as a powerful tool for the conversion of aryl/alkenyl halides or halide equivalents to carbonyl compounds and carboxylic acid derivatives. To circumvent the difficulties in product separation and recovery and reuse of the catalysts, associated with homogeneous reactions, supported counterparts of the homogeneous palladium catalysts were developed. The review intends to summarize the huge development that has been witnessed in recent years in the field of heterogeneous carbonylation. A great plethora of supports, organic modifiers on solid surfaces stabilizing metal particles, transition metal precursors, as well as alternative sources for CO was investigated. In most cases, careful optimization of reaction conditions was carried out. Besides simple model reactions, the synthesis of carbonyl compounds and carboxylic acid derivatives from substrates with different functionalities was performed. In some cases, causes of palladium leaching were clarified with detailed investigations. The advantages of immobilized catalysts were shown by several examples. The possibility of catalystrecycling was proved besides proving that metal contamination of the products could often be kept below the detection limit. At the same time, detailed investigations should be carried out to gain a better insight into the real nature of these processes.

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非均相催化剂作用下芳基卤化物的羰基化反应

钯催化的羰基化反应是将芳基/烯基卤化物或卤化物等价物转化为羰基化合物和羧酸衍生物的有力工具。为克服均相反应中催化剂分离、回收和再利用的困难，开发了均相钯催化剂的负载型对应物。本文综述了近年来异相羰基化研究取得的巨大进展。研究了大量的载体、固体表面的有机改性剂、稳定金属颗粒、过渡金属前体以及CO的替代来源。在大多数情况下，对反应条件进行了仔细的优化。除了简单的模型反应外，还进行了以不同官能团为底物的羰基化合物和羧酸衍生物的合成。在某些情况下，对钯浸出的原因进行了详细的调查。通过实例说明了固定化催化剂的优点。除了证明产品的金属污染通常可以保持在检测限以下外，还证明了催化剂回收的可能性。同时，应该进行详细的调查，以便更好地了解这些进程的真正性质。

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来源期刊

Current Green Chemistry CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

4.30

自引率

13.60%

发文量