有机-无机杂化材料负载的钯催化剂: 一种新型有效而可循环的无铜Sonogashira偶联反应

本文报道了有机-无机杂化材料固载的钯催化的无铜Sonogashira偶联反应。在3-[N,N-双（二苯基膦）氨基）]丙基功能化的硅胶固载的钯催化下,末端炔烃和碘代芳烃、溴代芳烃的偶联反应生成高产率相应的偶联产物。反应条件包括使用乙二醇为溶剂,三乙胺为碱。而且硅胶负载的膦钯催化剂和溶剂乙二醇经简单处理,可循环使用6次不降低活性。     

醚功能化的膦配体的合成、负载及其在钯催化的Suzuki-Miyaura反应中的应用

合成了一种新的醚功能化的二茂铁膦3,连到Merrifield树脂上形成负载型的膦配体4;分别开展了膦配体3及其负载型的4在钯催化的Suzuki-Miyaura偶联反应中催化研究;发现相应形成的均相和多相钯催化剂可高产率地催化一系列的溴代芳烃与芳基硼酸偶联形成相应的联芳烃,以及负载型催化剂在不补加钯时具有一定的循环性能.     

Pd/MgO:一种基于芳香羧酸脱羧与卤代芳烃的交叉偶联反应体系的可循环的多相催化剂(英文)

发展了钯多相催化剂Pd/MgO(0.5 mol%Pd)参与的芳基羧酸脱羧与卤代芳烃的偶联反应体系.在与溴代芳烃甚至氯代芳烃的偶联反应中,缺电子和富电子的芳基羧酸均能进行脱羧,并以高收率得到目标产物.该体系采用的负载型钯多相催化剂制备方法简单易行,可多次循环使用,能便捷地应用于脱羧偶联的有机合成反应.     

硅纳米片负载钯催化剂的制备及其催化Suzuki反应研究

通过硅化钙在酸性条件下水解制得二维硅纳米片载体材料,经3-氨丙基三乙氧基硅烷化学改性后与钯配位,再经还原得到了一种新型的硅纳米片负载钯催化剂,采用透射电镜和电感耦合等离子体质谱(ICP-MS)等手段对其进行了表征.并将该催化剂成功应用于Suzuki反应,结果表明,硅纳米片负载钯催化剂在较低的钯催化量和空气氛围下即可有效地催化多种溴代芳烃和芳基硼酸的Suzuki偶联反应.此外,该催化剂经8次循环使用后,催化活性无明显下降.     

多壁碳纳米管负载钯(II)催化剂催化Suzuki-Miyaura反应的研究

多壁碳纳米管(MWNTs)负载钯(II)催化剂以乙醇/水(V/V=1∶1)混合溶液为溶剂,室温条件下,高效催化卤代芳烃与苯硼酸的Suzuki-Miyaura偶联反应。该催化剂绿色环保,能够在循环使用5次后仍有较好的稳定性。     

水介质中高分子配体负载微粒钯催化Suzuki偶联反应

对Wang树脂进行改性,制备了高分子负载纳米钯催化剂,并将其应用于水介质中卤代芳烃与芳硼酸的Suzuki偶联反应。 以溴苯和苯硼酸的偶联反应为模型,考察了溶剂、温度、碱种类、催化剂用量对反应的影响,确定较佳的反应条件为：n(C₆H₅Br)∶n(C₆H₅B(OH)₂)∶n(WRP-Pd)∶n(K₂CO₃)∶n(TBAB)=1.0∶1.5∶0.005∶2.0∶0.5,反应温度100℃, 反应时间4 h。 用氯代芳烃代替溴代芳烃反应时,延长反应时间,也能得到较高产率。 催化剂经过简单的过滤洗涤后,重复使用4次活性无明显降低。     

钯纳米颗粒负载在聚苯胺材料上制得催化Suzuki-Miyaura偶联反应的高效催化剂

在最近的几十年里,金属钯催化的Suzuki-Miyaura偶联反应已经得到了越来越多的关注,被广泛应用于药物、天然产物以及新材料的合成.与此同时均相催化剂发展迅速,高效的配体和大量的设计被用于Suzuki-Miyaura偶联反应中,但是钯催化剂的配体通常很昂贵和难以合成,因此钯催化剂系统的回收是非常有价值的,不仅是经济上的原因,同时也避免了产品的污染,所以发展非均相催化剂是必要的.近年来,研究学者们致力于设计非均相的钯催化剂,如将钯纳米颗粒负载到金属有机骨架、介孔分子筛以及活性炭等多种材料上得到的非均相钯催化剂并应用于Suzuki-Miyaura偶联反应中.我们主要介绍了钯纳米颗粒被负载在含磷配体的交联的聚苯胺材料上制得负载的钯催化剂,首先通过钯催化的三(4-碘苯基)胺与金刚烷基膦的C–P偶联,再由钯催化三(4-碘苯基)胺与对苯二胺的C–N偶联,进而得到钯纳米颗粒负载在含金刚烷基膦的聚苯胺材料上的催化剂Pd@PAN-Ad-0.5(钯含量为0.58 wt%),同时我们对催化剂进行了一些表征,如TEM,SEM,XRD,EDX,XPS,FT-IR,ICP等.通过TEM分析,我们发现钯纳米颗粒在聚合物表面分布均匀,并且金属钯的平均粒径为2–3 nm;EDX检测显示催化剂含有C,N,P,Pd,I元素,说明钯负载到含金刚烷基膦的聚苯胺材料上的催化剂Pd@PAN-Ad-0.5已经形成,并被用于Suzuki-Miyaura偶联反应.我们对反应体系中的各种影响因素进行了优化,包括溶剂、碱、反应时间、催化剂加入量以及不同的催化剂的优化,最终确定了最佳反应条件;对于带有不同取代基(如腈基、甲氧基、醛基、酮基以及硝基)的氯代芳烃和溴代芳烃与苯硼酸的Suzuki-Miyaura反应,以较少的催化剂使用量(0.075 mol%Pd)就能获得较高的相应的联苯产物收率.此外,催化剂Pd@PAN-Ad-0.5在偶联反应中具有较高的反应活性的同时,还具有较好的回收使用能力(至少能够回收使用5次),循环使用4次以后还具有较高的催化活性.为了探索催化剂Pd@PAN-Ad-0.5在工业上的应用,由于4'-氯-2-硝基-1,1'-联苯是合成啶酰菌胺药物的重要中间体,因此我们使用催化剂Pd@PAN-Ad-0.5催化2-硝基氯苯与4-氯苯硼酸的偶联反应,目标产物4'-氯-2-硝基-1,1'-联苯的收率高达96%.我们相信这类催化剂应用于实验室或工业上合成联苯化学品具有较大的潜力.     

四乙烯五胺功能化纤维素负载纳米钯催化剂的制备及其对Suzuki反应催化性能的研究

利用四乙烯五胺对环氧化纤维素进行功能化改性,并以其为载体在95％乙醇溶液中现场还原氯化钯制备出四乙烯五胺功能化纤维素负载的纳米钯催化剂.利用IR,XRD,SEM,TEM等分析方法对其进行了表征并用于催化Suzuki交叉偶联反应.实验表明,该催化剂在温和条件下能有效催化卤代芳烃与芳基硼酸的Suzuki交叉偶联反应,该催化剂经回收重复利用5次后,仍具有较高的催化活性.     

乙二胺功能化纤维素负载纳米钯催化Suzuki反应的研究

以氯化纤维素为原料, 通过与乙二胺的胺化反应制得乙二胺功能化纤维素(Cell-EDA), 然后再将胺化纤维素在氯化钯乙醇溶液中反应可以方便制备得到乙二胺功能化纤维素负载的纳米钯催化剂(Cell-EDA-Pd0). 用SEM, TEM等分析方法对所制备的催化剂进行了表征; TEM分析表明乙二胺功能化纤维素负载的纳米钯呈球形, 粒径在10～20 nm左右. 实验结果表明, Cell-EDA-Pd0催化剂对空气稳定, 无需在惰性气体的保护下就能有效地催化芳基硼酸与卤代芳烃的Suzuki交叉偶联反应, 催化剂易回和收重复使用, 催化剂重复使用6次催化活性没有明显降低.     

无配体Pd/LDH-F催化剂在Heck和Suzuki反应中的应用

 以氟离子插层的水滑石LDH-F为载体,用逐滴浸渍法制备了新型Pd/LDH-F催化剂,并用其催化溴代芳烃的Heck和Suzuki偶联反应. 用X射线衍射表征了催化剂的晶相,以等离子体发射光谱测定了溶剂中钯的流失量. 结果表明,对于Heck反应,在无配体存在和低钯用量(Pd/溴代芳烃摩尔比为0.001)的情况下, Pd/LDH-F的催化性能优于其它载体负载的Pd催化剂,显示出很高的催化活性和选择性. 在140 ℃和12 h的条件下, Pd/LDH-F催化溴苯与苯乙烯Heck反应产物的收率可达86％, 反应后催化剂经过分离,可循环使用四次其催化活性基本不变. 在DMF/水摩尔比为0.5的混合溶剂中,在室温和3 h 的条件下, Pd/LDH-F (Pd/溴代芳烃摩尔比为0.005)催化溴苯与苯基硼酸盐的Suzuki反应中,目标产物收率为99%.     

Silica–acetylacetone‐supported palladium nanoparticles as an efficient and reusable catalyst in the Heck–Mizoroki C–C cross‐coupling reaction

The preparation of palladium nanoparticles supported on acetylacetone‐modified silica gel and their catalytic application for Heck olefination of aryl halides were investigated. The catalyst was characterized using X‐ray diffraction, X‐ray photoelectron spectroscopy, and transmission and scanning electron microscopies. The supported palladium nanoparticles are demonstrated to be a highly active and reusable catalyst for the Heck reaction. Several reaction parameters, including type and amount of solvent and base, were evaluated. The heterogeneity of the catalytic system was investigated with results indicating that there is a slight palladium leaching into the reaction solution under the applied reaction conditions. Despite this metal leaching, the catalyst can be reused nine times without significant loss of catalytic activity. Copyright © 2015 John Wiley & Sons, Ltd.     

A silica-supported palladium-bis(oxazoline) complex efficiently catalyzes the synthesis of cinnamic acid derivatives via Mizoroki–Heck coupling reactions

A palladium(II)-bis(oxazoline) complex supported on silica (Pd-BOX-Si) was prepared, characterized and applied as a catalyst in Mizoroki–Heck cross-coupling reactions. The bis(oxazoline) (BOX) ligand has a hydroxyl group that can be anchored to 4-benzyl chloride-functionalized silica gel, followed by the coordination of palladium(II) chloride. The catalytic activity and the recyclability of Pd-BOX-Si have been investigated in the production of cinnamic acid derivatives via Mizoroki–Heck coupling reactions of acrylates with aryl halides; The Pd-BOX-Si catalyst demonstrated excellent catalytic activity. Characterization of the recycled Pd-BOX-Si catalyst revealed its good stability under the reaction conditions employed.     

Silica‐coated nano‐Fe3O4‐supported iminopyridine palladium complex as an active,phosphine‐free and magnetically separable catalyst for Heck reactions

A novel magnetic nanoparticle‐supported iminopyridine palladium complex was successfully prepared by attaching palladium acetate to iminopyridine ligand‐functionalized silica‐coated nano‐Fe₃O₄. The as‐prepared catalyst was well characterized and was evaluated in Heck reactions in terms of activity and recyclability. It was found to be highly efficient for the reactions of various aryl iodides and aryl bromides having electron‐withdrawing groups with olefins under phosphine‐free and inert atmosphere‐free conditions. Moreover, the catalyst could be conveniently recovered using an external magnet, and the recyclability was influenced by the base in the Heck reaction. The catalyst could be reused at least six times with no significant loss in activity when triethylamine acted as the base.     

Application of Highly Efficient,Recyclable Organic–Inorganic Hybrid Material Immobilized Palladium Catalyst in Amine‐ and Phosphine‐Free Suzuki–Miyaura Reaction

Palladium immobilized on organic–inorganic (silica‐gel) hybrid materials behaves as a very efficient heterogeneous catalyst in the Suzuki–Miyaura coupling reaction. Aryl iodides, bromides, and activated chlorides, coupled with organoboronic acids (Suzuki–Miyaura reaction), smoothly afford the corresponding cross‐coupling products in excellent yields under phosphine‐free and amine‐free reaction conditions in the presence of 3‐aminopropyl functionalized silica‐gel immobilized palladium (silica‐APTS‐Pd) as catalyst. Furthermore, the silica‐supported palladium catalyst could be recovered and recycled by simple filtration of the reaction solution. It could be reused for more than 15 consecutive trials without significant loss of its catalytic activity.     

Iron‐catalyzed cross‐coupling reaction: Heterogeneous palladium and copper‐free Heck and Sonogashira cross‐coupling reactions catalyzed by a reusable Fe(III) complex

An interesting silica‐supported iron catalyst was successfully prepared and demonstrated as an efficient heterogeneous catalyst for cross‐coupling reactions of aryl halides. The as‐prepared nanocatalyst was well characterized and found to be highly efficient in Heck reaction under mild and sustainable conditions (water as solvent at 80 °C in short reaction time). Furthermore, the obtained catalyst was used as an efficient, inexpensive and green heterogeneous catalyst for Sonogashira cross‐coupling reactions of various aryl iodides and provided the corresponding products with moderate to good yields. This phosphine, copper and palladium‐free catalyst was simply recovered from the reaction mixture and recycled five times without substantial decrease in its catalytic activity.     

乙二胺功能化树脂负载Pd(0)配合物：可重复使用的高活性Heck芳基化催化剂

The ethylenediamine-functionalized resin-supported Pd(0)complex was prepared from PdCl_2 and ethylenedia-mine-functionalized chloromethylated polystyrene,followed by reduction with KBH_4.The complex was character-ized by FT-IR,XRD,BET,SEM and EDS.The resin-supported catalyst exhibited high catalytic activity in theHeck reaction and could be reused up to 17 times in NMP or 16 times in DMF at 90 ℃ in the Heck reaction of io-dobenzene with acrylic acid.The leaching investigation disclosed that the palladium leaching was caused by the in-teraction of iodobenzene with the metal Pd(0)on supported catalyst.The leached palladium species in filtrate wasvery stable and could be reused five times after the solid catalyst was filtered off.A cross-transfer test in recyclingin the presence of additional carbon disclosed that the soluble leached palladium species had much higher catalyticactivity than supported and/or adsorbed palladium in solid-solution heterogeneous Heck reaction.     

Guanidine‐Functionalized Resin‐Supported Pd(0) Catalyst: Activity,Reusability, and Redeposition of Active Pd Species in Heck Vinylation

The guanidine‐functionalized resin‐supported Pd(0) catalyst [GDR·Pd(0)] is highly active in Heck reaction of aryl bromides with acrylic acid or styrene without the need to exclude air. The catalyst can be recycled at least 9 times without significant loss of activity in N‐methyl‐2‐pyrrolidone at 140 °C. The Heck reaction proceeds homogeneously with dissolved palladium species and the dissolved active palladium species can redeposit onto the surface of catalyst in the reaction. The XRD peak shifting of Pd phases in the catalyst provides the evidence for the re‐deposition of the active palladium species.     

Phosphine-free perfluoro-tagged palladium nanoparticles supported on fluorous silica gel: application to the Heck reaction

The immobilization of phosphine-free perfluoro-tagged palladium nanoparticles Pd-1 on fluorous silica gel (FSG) and their utilization in the Heck reaction have been investigated. High yields of vinylic substitution products have been obtained. Recycling studies have shown that the solid-supported palladium catalyst can be readily recovered and reused several times without significant loss of activity. Reactions and recovery of the solid-supported palladium catalyst system can be carried out in the presence of air, without any particular precaution.     

Investigation on the Coordination Mode of IL-Supported Diols Used as Phosphine-Free Ligands for Palladium Catalyzed Heck Reaction

The coordination mode of IL-supported diols used as phosphine-free ligands for palladium catalyzed Heck reaction has been investigated by tuning their compositions. The difference in coordination of these IL-supported diols with metal Pd in Heck reaction was related to the changes of the cation rings, leading to the different activities of Pd catalyst in the reaction. The experimental results indicated that the activities of Pd catalyst were affected mainly by n-electron density of the cation rings. Compared to pyridinium and piperidinium cations, imidazolium cations showed the best coordination to metal Pd. In the meantime, C-2 hydrogen and the length of alkyl side chains had impacts on the coordination as well.     

An improved preparation of mesoporous silica‐supported Pd as sustainable catalysts for phosphine‐free Suzuki–Miyaura and Heck coupling reactions

An improved and eco‐friendly procedure has been developed to generate mesoporous silica‐supported palladium nanoparticles (SiO₂@PdNP) that could be used as a sustainable heterogeneous Pd catalyst for phosphine‐free Suzuki–Miyaura and Heck coupling reactions with excellent turnover number and turnover frequency. The presence of Pd on the silica surface was detected by X‐ray diffraction and the structural morphology of SiO₂@PdNP was obtained by transmission electron microscopy. The heterogeneous catalytic system is recyclable and leaching of the metal after the reaction is not apparently observed. Copyright © 2013 John Wiley & Sons, Ltd.