Copper‐Catalysed Decarboxylative Trifluoromethylation of β‐Ketoacids

An efficient method for Cu‐catalyzed decarboxylative trifluoromethylation of β ‐ketoacids to achieve α ‐trifluoromethyl ketones was developed. A wide variety of synthetically useful α ‐trifluoromethyl ketones were obtained in modest to good yields under mild reaction conditions. The present method also exhibits good functional‐group compatibility.     

Palladium‐catalyzed decarboxylative coupling of α,β‐unsaturated carboxylic acids with aryl tosylates

We report a general method for selective cross‐coupling of α,β‐unsaturated carboxylic acids with aryl tosylates enabled by versatile Pd(II) complexes. This method features the general cross‐coupling of ubiquitous α,β‐unsaturated carboxylic acids by decarboxylation. The transformation is characterized by its operational simplicity, the use of inexpensive, air‐stable Pd(II) catalysts, scalability and wide substrate scope. The reaction proceeds with high trans selectivity to furnish valuable (E)‐1,2‐diarylethenes.     

一种新的肉桂酸类化合物的脱羧/甲基化反应

近年来,脱羧反应得到了广泛而深入的研究.肉桂酸类化合物的脱羧串联反应也得到了较多的关注.这类反应一般包括两个过程,自由基加成和羧基的脱去,从而在苯环的侧链引入各种各样的官能团.我们在研究过程中发现,在碳酸钾作为碱,过氧叔丁醇作为氧化剂,以二甲基亚砜（DMSO）/水作为混合溶剂条件下（体积比为1：1）,肉桂酸类衍生物能够转化成苯丙酮类化合物.通过对反应机理的研究,产物中的甲基来自于过氧叔丁醇,反应经过自由基加成和进一步脱羧得到产物.该反应特点是没有用过渡金属盐作为催化剂,并且是在水相中反应,因此符合绿色化学的发展要求.     

CuII@PAA/PVC mesoporous fibers: A hybrid wedding as a high-performance versatile heterogeneous catalyst for A3, KA2, and decarboxylative A3 reactions

Efforts made on the development of a novel, simple, cost-effective, and efficient approach to fabricate a copper catalyst immobilized on mesoporous poly (acrylic acid)/poly (vinyl chloride) hybrid fibers (Cu^II@PAA/PVC) for versatile catalytic applications in A₃, KA₂, and decarboxylative A₃ couplings has been described in this present work. The characterization of the mesoporous hybrid fibers was well performed by BET, FTIR, SEM, EDX, XPS, and TGA techniques. The pore structure and surface area were calculated by using BET measurement analysis. The obtained mesoporous Cu^II@PAA/PVC fibers exert high catalytic performance in the synthesis of propargylamines via one-pot A₃, KA₂, and decarboxylative A₃ reactions over a series of substrates without employing expensive ligands or inert atmosphere. The active Cu²⁺ species chelating with carboxylate groups in PAA/PVC hybrid fibers plays a key role in the catalysis. Meanwhile, the unique mesoporous structure and fiber morphology facilitate a better mass transfer and enlarge its contact area with substrates in the course of a reaction. Moreover, the Cu²⁺–carboxylate chelation could suppress the leaching of active Cu²⁺ species from the catalyst and thus lead to the catalyst has excellent performance and good durability as well as reusability.     

气相中铜催化的脱羧碘化反应

提供了一种通过电喷雾电离质谱在气相中对一类有机铜配体复合物的合成方法.通过碰撞诱导解离和分子-离子反应,在离子阱质量分析器中完成了气相中铜催化的脱羧碘化反应.羧酸（RCOOH）作为反应物最终通过碰撞诱导解离技术和分子-离子反应转化为碘代烃（RI）.在整个反应过程中,观察到了铜的价态变化,由此也对羧酸的脱羧碘化反应的反应机理进行了解释.同时,不同的羧酸和双氮配体也适用于该反应体系.该方法检测了一类有机铜复合物的气相反应活性,并对液相中铜催化的脱羧碘化反应的反应机理研究提供了重要信息.     

A cost‐effective shortcut to prepare organoselenium catalysts via decarboxylative coupling of phenylacetic acid with elemental selenium

An interesting decarboxylative coupling reaction of phenylacetic acid with elemental selenium was discovered and employed for the preparation efficient organoselenium catalysts for Baeyer–Villiger reaction and oxidative deoximation reaction. Compared with the traditionally used Grignard reagent method, the decarboxylative coupling reaction with selenium powders provides a shortcut for the preparation of organoselenium catalysts free of carcinogenic organohalide starting materials, toxic and odorous selenol intermediates and magnesium salt solid wastes. This may be helpful for reducing the cost of selenium catalysts to facilitate the application of organoselenium‐catalyzed green reactions in large‐scale production.     

Sodium Dithionite-Mediated Decarboxylative Sulfonylation: Facile Access to Tertiary Sulfones

A straightforward multicomponent decarboxylative cross coupling of redox-active esters (N-hydroxyphthalimide ester), sodium dithionite, and electrophiles was established to construct sterically bulky sulfones. The inorganic salt sodium dithionite not only served as the sulfur dioxide source, but also acted as an efficient radical initiator for the decarboxylation. Notably, diverse naturally abundant carboxylic acids and artificially prepared carboxyl-containing drugs with multiple heteroatoms and sensitive functional groups successfully underwent this decarboxylative sulfonylation to provide sterically bulky tertiary sulfones. Mechanistic studies further demonstrated that decarboxylation was the rate-determining step and occurred via a single-electron transfer (SET) process with the assistance of sodium dithionite.     

Mechanistic study of palladium‐catalyzed decarboxylative coupling of phenylpropiolic acid and aryl iodide

The mechanism of decarboxylative coupling of phenylpropiolic acid and methyl 4‐iodobenzoate was investigated by gas chromatographic analysis and monitoring the decarboxylation reaction by FT‐IR spectroscopy. Among many possible pathways, we found that the mechanism involves two possible pathways, namely the decarboxylation of phenylpropiolic acid and that proceeding through the carboxylated palladium complex. Copyright © 2012 John Wiley & Sons, Ltd.