超顺磁性介孔纳米颗粒嫁接肟Pd环络合物对Heck反应的催化活性

采用溶胶-凝胶法制备出介孔二氧化硅包裹四氧化三铁纳米复合颗粒,在其表面修饰巯基,并以此为载体通过-SCH2-化学键嫁接长链的肟钯环络合物.利用透射电镜(TEM)、高分辨透射电镜(HRTEM)、傅里叶变换红外(FT-IR)光谱、N2吸附-脱附、X光电子能谱(XPS)、振动样品磁强计(VSM)等手段对催化剂进行表征,通过Heck反应对催化剂的活性进行评价.实验结果表明:所制备的磁性颗粒直径约为150nm,比表面积为287.0m2·g-1,且具有大小为3.5nm呈不规则的孔道结构,整个催化剂呈现超顺磁性.对于碘代苯与丙烯酸乙酯之间的Heck反应,2.5h后碘代苯的转化率可达到99%,催化剂在重复使用6次后能保持很高的催化活性(碘代苯转化率为95%).催化剂可稳定分散于反应体系中,并可在外磁场作用下快速与反应体系分离.     

壳聚糖钯催化Heck反应合成肉桂酸丁酯的研究

以天然高分子壳聚糖为载体,制得了用于Heck反应的壳聚糖钯配合物多相催化剂,用XPS对其结构进行了表征,并利用正交实验方法考察了原料配比、缚酸剂三乙胺的用量、反应温度、反应时间和催化剂的用量对碘代苯与丙烯酸丁酯Heck反应的影响.结果表明:反应因素的影响大小为:反应温度>原料配比>三乙胺用量>催化剂的用量>反应时间;在最佳的反应条件下:碘代苯与丙烯酸丁酯的摩尔比为1∶1、三乙胺9mmol、催化剂0.1g(钯含量1.88×10-2mmol)时,氮气保护下140℃反应8h,肉桂酸丁酯的产率可高达99.8%.并且该催化剂对其它丙烯酸酯的Heck反应也具有良好的催化活性.     

高活性氨基胍树脂负载Pd(0)配合物的催化性能研究

以氨基碳酸胍改性氯球为载体,与氯化钯溶液反应并还原制备氨基胍树脂负载钯(0)催化剂.对催化剂进行了FT-IR,XRD,BET,TG-DTA表征.研究了该催化剂对各种取代卤代苯与丙烯酸、苯乙烯的Heck芳基化反应催化性能.实验结果表明,该催化剂对活性(吸电子基)溴代苯和碘苯具有良好的催化活性,对含活性吸电子基的溴代苯(4-溴苯甲醛和4-溴硝基苯)于140℃时能在22min内完成Heck芳基化反应;催化剂具有较好的重复使用性能,在90℃下催化碘苯与丙烯酸的反应循环21次时仍能保持良好的催化活性.反应机理研究表明:催化反应的活性组分是可溶性钯物种;可溶性钯是由卤代苯与催化剂表面上的钯氧化加成所致.     

高活性氨基胍树脂负载Pd(0)配合物的催化性能研究

以氨基碳酸胍改性氯球为载体, 与氯化钯溶液反应并还原制备氨基胍树脂负载钯(0)催化剂. 对催化剂进行了FT-IR, XRD, BET, TG-DTA表征. 研究了该催化剂对各种取代卤代苯与丙烯酸、苯乙烯的Heck芳基化反应催化性能. 实验结果表明, 该催化剂对活性(吸电子基)溴代苯和碘苯具有良好的催化活性, 对含活性吸电子基的溴代苯(4-溴苯甲醛和4-溴硝基苯)于140 ℃时能在22 min内完成Heck 芳基化反应; 催化剂具有较好的重复使用性能, 在90 ℃下催化碘苯与丙烯酸的反应循环21次时仍能保持良好的催化活性. 反应机理研究表明: 催化反应的活性组分是可溶性钯物种; 可溶性钯是由卤代苯与催化剂表面上的钯氧化加成所致.     

高活性氨基胍树脂负载Pd(O)配合物的催化性能研究

以氨基碳酸胍改性氯球为载体,与氯化钯溶液反应并还原制备氨基胍树脂负载钯(O)催化剂.对催化剂进行了FT-IR,XRD,BET,TG-DTA表征.研究了该催化剂对各种取代卤代苯与丙烯酸、苯乙烯的Heck芳基化反应催化性能.实验结果表明,该催化剂对活性(吸电子基)溴代苯和碘苯具有良好的催化活性,对含活性吸电子基的溴代苯(4-溴苯甲醛和4-溴硝基苯)于140℃时能在22 min内完成Heck芳基化反应;催化剂具有较好的重复使用性能,在90℃下催化碘苯与丙烯酸的反应循环21次时仍能保持良好的催化活性.反应机理研究表明:催化反应的活性组分是可溶性钯物种;可溶性钯是由卤代苯与催化剂表面上的钯氧化加成所致.     

多孔网状聚苯胺包覆磁性纳米Fe_3O_4负载钯催化的Suzuki及Heck偶联反应

为解决均相钯催化剂难于分离回收及循环使用问题,发展了一种廉价易行的方法合成易于原位磁分离回收的磁性纳米粒子(MNPs)负载钯催化剂Fe3O4@MOPPA-Pd.该催化剂可高效催化卤代苯的Suzuki反应及Heck反应,且对Suzuki偶联反应具有尤其高的催化活性,在温和条件下,10 mg Fe3O4@MOPPA-Pd可催化300 mmol溴苯与苯硼酸的偶联反应,联苯的分离收率达98%,转化数(TON)及转化率(TOF)分别高达77052和51368 h-1.此外,Fe3O4@MOPPA-Pd可在外加磁场存在下由反应体系中方便分离回收,循环使用4次以上催化活性无明显降低.     

壳聚糖钯(0)配合物催化Heck芳基化反应研究

以天然高分子壳聚糖为载体,室温下通过与氯化钯乙醇溶液作用制得壳聚糖负载氯化钯黄色粉末,再在乙醇溶液中回流还原,制得了壳聚糖钯(0)配合物催化剂,研究了其对碘代苯与丙烯酸Heck芳基化反应的催化性能.结果表明该催化剂具有较高的催化活性和立体选择性,可高转化率、高产率地合成反式苯丙烯酸;通过简单的过滤、溶剂洗涤回收催化剂,并能多次重复使用.该催化剂对其它反应底物的催化性能也进行了探讨.     

介孔碳球的制备及其催化性能研究

通过在3-氨基苯酚与甲醛聚合成球的过程中引入模板剂二氧化硅纳米颗粒,随后碳化、腐蚀除硅,制备得到了具有良好介孔结构的碳纳米球.通过透射电子显微镜(TEM)、粉末X射线衍射(XRD)、N_2等温吸脱附(BET)等表征手段对样品形貌和结构进行了分析,表明介孔碳球分散性良好、比表面积较大(~294m~2/g)、孔径分布均匀(~3.8nm).以该介孔碳球为载体,负载金属钯纳米颗粒,得到了金属颗粒分散均匀、粒径小(~2nm)的Pd/介孔碳球复合材料.应用于催化碘苯和苯硼酸的Suzuki偶联反应中,具有良好的催化活性.反应5min,碘苯的转化率达99.06%,催化剂循环使用7次,碘苯转化率未见明显下降.     

磁性氧化铝负载Pd催化剂对硝基苯加氢催化活性的研究

采用微乳法室温下合成了γ-Al2O3/SiO2/Fe3O4磁性复合颗粒为载体负载的纳米钯催化剂.利用透射电镜、x射线光电子能谱和振动样品磁强计等手段对催化剂进行表征,评价了催化剂对硝基苯加氢制苯胺反应的催化活性.结果表明,通过调控反应条件,可在平均粒径为200nm左右的磁性载体上负载10m左右均匀分散的Pd纳米颗粒,整个催化剂呈现超顺磁性;在催化剂磁含量为8%、Pd负载量1%、反应时间40min、反应温度50℃,反应压力0.5MPa条件下,硝基苯的转化率可以达到100%,催化剂重复使用10次时仍可保持很高的催化活性,并可在外磁场作用下快速分离与回收.     

负载离子液体纳米钯催化芳卤羰化反应

研究了高分散性的负载离子液体纳米钯催化剂的制备及其催化芳卤羰化反应的性能. 用XRD、HRTEM和XPS等方法对催化剂进行了表征, 结果表明, 钯组分处于高分散零价态, 其平均粒径小于5 nm, 且催化剂表面存在一厚度适中的离子液体液膜, 有利于提高催化剂的稳定性; 该催化剂对PhI、PhBr、PhCl的羰化反应的催化活性优于离子液体两相催化体系, 在优化的反应条件下, 碘苯的转化率可达99.3％, 生成苯甲酸乙酯的转化频率(TOF)可高达4926 h−1, 反应产物中苯甲酸乙酯的选择性大于99％.     

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.     

(聚酰胺-胺树枝状大分子)-水杨醛席夫碱钯配合物的Heck反应催化性能研究(英文)

用元素分析、红外光谱、紫外光谱、荧光光谱和核磁等分析手段对合成出的1.0G树枝状大分子-水杨醛席夫碱钯配合物(PAMAMSAPd)进行了表征。用其作为催化剂,研究了碘代苯与丙烯酸在有机溶剂中的偶联反应。对于碘代苯与丙烯酸的偶联反应,最佳反应条件为:惰性气氛,10mmol PhI,nPhI∶nAA∶nEt3N=1∶1.5∶2.5,3.0×10-3g PAMAMSAPd, 4mL DMF和100°C的反应温度。在该条件下,产物肉桂酸的产率可达96.5%。该树枝状大分子配合物是一种无磷、高效和稳定的Heck反应催化剂。且该催化剂经简单的过滤、溶剂洗涤进行回收,重复使用3次,产率仍能达到90.2%。     

偕胺肟纤维-钯(II)配合物的制备及对Heck反应的催化性能研究

以聚丙烯腈纤维为基体,通过较简单的方法获得了偕胺肟纤维- 钯(II)配合物,采用FTIR、XPS等技术对其结构和性能进行了表征。本研究考察了该配合物在不同反应条件下对碘苯与苯乙烯的Heck反应的催化性能,结果显示：该配合物在较温和的条件下即可很好的催化Heck反应,经重复使用5次后,1,2-二苯乙烯的产率仍达90%以上,并且反应结束后催化剂易于从反应体系中分离。对于其他不同底物之间的Heck反应,偕胺肟纤维- 钯(II)配合物同样显示较好的催化性能。     

Chitosan-immobilized Palladium Complex：a Green and Highly Active Heterogeneous Catalyst for Heck Reaction

A green heterogeneous catalyst for Heck reaction-chitosan-immobilized palladium complex was prepared.The catalyst exhibits high activity and stereoselectivity under the moderate reaction conditions.The catalyst can be separated easily from the reaction mixture and reused after washing.Under the suitable reaction conditions,the cross-coupling of iodobenzene (ArI) with acrylic acid (AA) or acrylate can be achieved 93.3% or 99% yield of trans-cinnarnic acid or trans-cinnamic ester.     

Catalytic activity of palladium supported on single wall carbon nanotubes compared to palladium supported on activated carbon Study of the Heck and Suzuki couplings, aerobic alcohol oxidation and selective hydrogenation

Nanoparticles (2–10 nm) of palladium have been deposited on single wall carbon nanotubes (SWNT) by spontaneous reduction from Pd(OAc)₂ or from oxime carbapalladacycle. These catalysts exhibit higher catalytic activity than palladium over activated carbon (Pd/C) for the Heck reaction of styrene and iodobenzene and for the Suzuki coupling of phenylboronic and iodobenzene. This fact has been attributed as reflecting the dramatic influence of the size particle on the activity of the palladium catalyst for CC bond forming reactions as compared to other reaction types less demanding from the point of view of the particle size. Thus, in contrast to the Heck and Suzuki reactions, Pd/C is more active than palladium nanoparticles deposited on SWNT for the catalytic oxidation by molecular oxygen of cinnamyl alcohol to cinnamaldehyde and for the hydrogenation of cinnamaldehyde to 3-phenylpropionaldehyde.     

The leaching and re-deposition of metal species from and onto conventional supported palladium catalysts in the Heck reaction of iodobenzene and methyl acrylate in N-methylpyrrolidone

When supported palladium catalysts are used for Heck vinylation of iodobenzene with methyl acrylate in N-methylpyrrolidone (NMP) in the presence of triethylamine and sodium carbonate bases, the reaction proceeds homogeneously with dissolved active palladium species that are formed through coordination of NMP and triethylamine with palladium. These active species easily react with iodobenzene (oxidative addition), beginning the catalytic cycle of Heck coupling. The last step of catalyst regeneration takes place with the action of sodium carbonate. The active palladium species are not stable and deposit the metal to support when they cannot find iodobenzene to react in the reaction mixture after this substrate is completely consumed. The re-deposition of palladium occurs on the surfaces of bare support and/or palladium particles remaining on it, depending on the nature of support surface and the number and size of residual metal particles. The growth of palladium particles has been observed after the reuse of catalyst in some case. However, the supported catalysts are recyclable without loss of activity.     

田菁胶负载钯催化Heck反应的研究

通过较简单的方法合成了田菁胶负载钯化合物,利用XPS、IR、TG、DTA和TEM等手段对其进行了表征.该化合物在空气氛围中就能很好地催化丙烯酸、苯乙烯和丙烯酰胺与芳基碘的Heck反应,高产率(≥85 % )且立体选择性地生成取代的反式肉桂酸、1,2- 二苯乙烯和肉桂酰胺.化合物具有较好的重复使用性能.催化剂中起催化作用的是金属态的钯.     

Heck reactions of iodobenzene and methyl acrylate with conventional supported palladium catalysts in the presence of organic and/or inorganic bases without ligands

The vinylation of iodobenzene with methyl acrylate has been studied with several supported palladium catalysts in N-methylpyrrolidone in the presence of triethylamine and/or sodium carbonate. The reaction can be performed in air without any solubilizing or activating ligands. It was found that significant amounts of palladium leach out into the solvent and these dissolved Pd species essentially catalyze the reaction. It is interesting, however, that almost all the palladium species in the solution can redeposit onto the surface of the supports after the reaction has been completed (at 100% conversion of iodobenzene). Thus, the catalysts were recyclable without loss of activity. The use of both inorganic and organic bases is very effective in the promotion of the palladium redeposition as well as in the enhancement of the reaction rate. For Heck reactions with bromobenzene and chlorobenzene it was found that the use of triethylamine and sodium carbonate increases the selectivity of the Heck coupling product (benzene is also produced for these two substrates), but the mixed bases do not affect the overall rate of reaction as much.