乙烯线性齐聚的研究(Ⅳ)——ⅣB族化合物催化乙烯齐聚中的几个问题

直链低碳α-烯烃(指十碳以下的正构α-烯烃)是重要的基本化工原料,广泛用于合成润滑油、增塑剂、精细化工产品及共聚单体.以过渡金属络合物催化乙烯齐聚获得直链α-烯烃被认为是当前最先进的方法.镍络合物体系催化乙烯齐聚得到α-烯烃的SHOP法是Ⅷ族金属络合物催化反应的代表.它是以得到高碳α-烯烃为目的.以ⅣB族金属络合物为基础的体系主要催化烯烃高聚,催化齐聚的研究工作尚少.近年来曾有锆酸酯和烷基铝催化乙烯齐聚的报导,其C_4-C_8烯烃的收率最高可达92%.本文将报导用简单易得的锆盐和烷基铝为基础组成的体系催化乙烯齐聚的结果,及对此类催化体系的失活问题进行探讨.     

Ind2Zr（OC6H4Me—p）2和EtnAlCl3—n催化乙烯剂聚的研究

茂金属催化剂（Kaminsky催化剂）是80年代发展起来的烯烃聚合高效催化剂,有关其催化烯烃聚合的研究很多,近年来,Kaminsky型催化剂催化乙烯齐聚合成低碳α烯烃的研究已有报道。由乙烯齐聚得到的直链低碳α烯烃是生产线性低密度聚乙烯（LLDPE）和高密度聚乙烯（HDPE）的共聚单体。以茚基锆化合物与烷基铝组成的Ziegler-Natta催化体系催化乙烯齐聚尚未见报道,本文考察了Ind2Zr(OC6H4Me-p)2和各种乙基铝组成的二元催化体系对乙烯齐聚的催化性能。     

NiSO/r-Al2O3对低级烯烃齐聚反应的催化作用

用ＮａＯＨ和ＣＯ中毒法，ＥＳＲ检测等方法研究了ＮｉＳＯ４／ｒ－Ａｌ２Ｏ３催化剂上乙烯，丙烯和１－丁烯齐聚反应的催化作用。结果表明：催化剂的酸性对烯烃的齐聚反应起重要作用，并且反应活性主要与Ｈｏ≤－３．０的酸中心有关；乙烯二聚反应是通过配位催化进行的，其活性中心是Ｎｉ＋，丙烯聚是Ｎｉ＋上的配位催化和酸催化进行的，而１－丁烯齐聚则是通过酸催化机理进行。     

NiSO_4／γ－Al_2O_3对低级烯烃齐聚反应的催化作用

用ＮａＯＨ和ＣＯ中毒法、ＥＳＲ检测等方法研究了ＮｉＳＯ４／γ－Ａｌ２Ｏ３催化剂上乙烯、丙烯和１－丁烯齐聚反应的催化作用．结果表明：催化剂的酸性对烯烃的齐聚反应起重要作用，并且反应活性主要与Ｈｏ－３．０的酸中心有关，乙烯二聚反应是通过配位催化进行的，其活性中心是Ｎｉ＋，丙烯齐聚是通过Ｎｉ＋上的配位催化和酸催化进行的，而１－丁烯齐聚则是通过酸催化机理进行     

多氮螯合配位后过渡金属络合物烯烃聚合催化剂

A2二亚胺镍、钯络合物和吡啶二亚胺铁、钴络合物是近几年来发现的新一代烯烃均相聚合后过渡金属催化剂。这类催化剂具有活性高、选择性易调变、聚合物性质可控制的特点, 尤其是对官能团中的杂原子的稳定性方面优于前过渡金属催化剂。本文将近年来的有关报道归纳为4 个方面进行评述: 络合物的合成和结构; 配体结构因素对络合物催化性能的影响; 催化烯烃高聚、齐聚和共聚以及催化反应机理。     

膦胺铬和双膦铬催化乙烯选择性齐聚研究进展

乙烯选择性齐聚制备线性α-烯烃是在学术界和工业界均受到高度重视,具有目标产物选择性高、产品易分离和经济效益显著等特点。铬系配合物催化剂在催化乙烯选择性齐聚反应中综合性能较好,有良好的发展和应用前景。近年来的研究表明,配体结构对催化剂性能有重要影响;反应体系中通入H 2可以改善齐聚产物的分布并抑制低聚物的生成;开发不以甲基铝氧烷为助催化剂的催化体系可降低催化剂成本;而乙烯选择齐聚机理及金属中心氧化态对催化剂的设计有重要的指导意义。本文主要从以上几个方面介绍了膦胺铬和双膦铬配合物在催化乙烯选择性齐聚中的研究进展,分析了目前乙烯选择性四聚工业化急需解决的问题,展望了该领域未来的发展方向。     

Ind2Zr(OC6H4Me-P)2和EtnAICL3-n催化乙烯齐聚的研究

茂金属催化剂 ( Kaminsky催化剂 )是 80年代发展起来的烯烃聚合高效催化剂 [1] ,有关其催化烯烃聚合的研究很多 [2～ 4 ] .近年来 ,Kaminsky型催化剂催化乙烯齐聚合成低碳α烯烃的研究已有报道 [5] .由乙烯齐聚得到的直链低碳α烯烃是生产线性低密度聚乙烯 ( LL DPE)和高密度聚乙烯 ( HDPE)的共聚单体 .以茚基锆化合物与烷基铝组成的 Ziegler- Natta催化体系催化乙烯齐聚尚未见报道 .本文考察了Ind2 Zr( OC6H4 Me- p) 2 和各种乙基铝组成的二元催化体系对乙烯齐聚的催化性能 .1　实验部分　　二茚基锆配合物 Ind2 Zr Cl2 和 Ind2 …     

乙烯线性齐聚研究Ⅺ.Kaminsky催化剂催化乙烯齐聚

乙烯线性齐聚研究　Ⅺ．Ｋａｍｉｎｓｋｙ催化剂催化乙烯齐聚沈玉梅，何仁（大连理工大学化工学院，大连１１６０１２）关键词乙烯，齐聚，Ｋａｍｉｎｓｋｙ催化剂，络合催化直链低碳α－烯烃是线性低密度聚乙烯的共聚单体，也是合成高级醇、高级润滑油、增塑剂和表面活性...     

新型桥联烯烃聚合茂金属催化剂研究进展

概述了桥联茂金属催化剂催化乙烯，α－烯烃均聚及共聚的最新进展，重点论述了桥基本身对催化性能的影响规律。     

新型高效 Br(o)nsted 酸性离子液体催化剂体系催化烯烃齐聚反应

烯烃齐聚是重要的化工反应之一, 是指低碳烯烃在催化剂存在下发生聚合反应, 生成一个或多个单体重复相连的化合物过程. 烯烃齐聚反应是一种碳链增长过程, 是生成线性α-烯烃的重要过程. 齐聚反应主要生成单体的二聚、三聚、四聚或五聚物等低聚体, 发生反应的单体主要是低碳烯烃如乙烯、丙烯、正丁烯和异丁烯等. 烯烃齐聚产物应用十分广泛, 可以用于合成环境友好的液体燃料、长链烷烃润滑油、表面活性剂、增塑剂、汽油柴油添加剂等重要化工产品, 同时齐聚产物本身亦是重要的化工中间体和化学试剂. 烯烃齐聚反应研究的重点内容是开发新颖高效的催化剂, 以满足不同需要, 而应用 Br(o)nsted 酸性功能化离子液体作为催化剂用于齐聚反应的报道较少.本文考察了新型高效催化剂体系 (Br(o)nsted 酸性离子液体作为主催化剂, 三辛基甲基氯化铵作为助剂) 对烯烃齐聚反应的催化性能. 合成的 Br(o)nsted 酸性离子液体通过红外光谱、紫外可见光谱、1H 核磁共振和13C 核磁共振等进行系列表征,并进一步分析其结构与酸度的关系. 结果表明, 在相同的反应条件下, Br(o)nsted 酸性离子液体[HIMBs]HSO4对烯烃齐聚反应具有最好的催化活性. 本文考察了不同离子液体、离子液体用量、不同助剂、助剂用量、反应时间、反应压力、反应温度和不同溶剂等因素对反应的影响, 得到了最佳反应条件: 催化剂体系为[HIMBs]HSO4与三辛基甲基氯化铵, [HIMBs]HSO4/异丁烯摩尔比为25%, [HIMBs]HSO4/助剂 (三辛基甲基氯化铵)摩尔比为20:1 , 140 ℃, 8 h, 反应起始压力为2.0 MPa, 无添加溶剂 (离子液体本身作催化剂和溶剂). 在最佳反应条件下对反应物进行了拓展, 并研究了催化剂体系的循环使用情况. 在最佳反应条件下, 异丁烯齐聚反应中反应物转化率为 83.21%, 三聚物选择性高达 35.80%, 二聚物选择性为52.02%, 四聚物选择性为 3.14%. 结果表明, 本文提出的催化剂体系对烯烃齐聚反应具有较好的催化性能. 同时, 催化剂体系可以通过静置分层与产物分离, 并进行循环使用. 根据以往的报道和反应产物分布, 推测了烯烃齐聚反应机理. 烯烃齐聚反应为酸催化反应, 生成碳正离子中间体进行碳链增长, 生成齐聚产物.     

Synthesis, structural characterization, and theoretical investigation of compounds containing an Al-O-M-O-Al (M=Ti, Zr) core

We report a facile route to the first molecular compounds with the Al-O-M-O-Al (M=Ti, Zr) structural motif. Synthesis of L(Me)Al(mu-O)M(NMe2)2(mu-O)Al(Me)L [L=CH{N(Ar)(CMe)}2, Ar=2,6-iPr2C6H3; M=Ti (7), Zr (8)] was accomplished by reacting the monometallic hydroxide precursor L(Me)Al(OH) (1) with Ti(NMe2)4 or Zr(NMe2)4 under elimination of Me2NH in good yield. The crystal structural data confirm the trimetallic Al-O-M-O-Al core in both 7 and 8. Preliminary investigation on catalytic activity of these complexes reveals low activity of these complexes in ethylene polymerization as compared to the related oxygen-bridged metallocene-based heterobimetallic complexes L(Me)Al(mu-O)M(Me)Cp2 (M=Ti, Zr) which could be attributed to the relatively lower stability of the supposed cationic intermediate as revealed by DFT calculations.     

Homogeneous Ziegler–Natta catalysis. II. Ethylene polymerization by IVB transition metal complexes/methyl aluminoxane catalyst systems

Homogeneous Ziegler-Natta systems for the ethylene polymerization, deriving from R₂R_2′M complexes (R = cyclopentadienyl; R′ = alkyl, aryl; M = Ti, Zr, Hf) and oligomeric oxoalane compounds, were studied. Further results concerning the methyl aluminoxane synthesis and the related chemistry are reported. On the basis of spectroscopic data a delocalized electronic structure could be inferred for these compounds. Results from polymerization experiments showed that the highest productivities are obtained only by oxoalane cocatalysts having a high degree of oligomerization. The catalytic activity of the systems under investigation was strongly affected also by changing both the σ-alkyl and the π-cyclo-pentadienyl ligands. Furthermore, it was found that in the presence of methyl aluminoxane, the homoleptic σ-alkyl derivatives of IVB transition metals, such as Zr(CH₂C₆H₅)₄, are also able to polymerize ethylene with a fairly high productivity. Active species containing Zr? O? Al bonds have been postulated.     

Synthesis and structures of cycloalkylidene-bridged cyclopentadienyl metallocene catalysts: effects of the bridges of ansa-metallocene complexes on the catalytic activity for ethylene polymerization

A series of cycloalkylidene-bridged cyclopentadienyl metallocene complexes, [(CH(2))(n)C(C(5)H(4))(2)MCl(2)] (M = Ti, n = 4 (4), 5 (5), 6 (6); M = Zr, n = 4 (7), 5 (8), 6 (9); M = Hf, n = 4 (10), 5 (11), 6 (12)), have been synthesized and applied to ethylene polymerization after activation with methyl aluminoxane (MAO). The cycloalkylidene-bridged titanocene catalysts exhibit much higher activities than the corresponding zirconocene and hafnocene analogues, and have the highest activities at higher temperatures. In comparison, the silacyclopentylidene-bridged metallocene complexes [(CH(2))(4)Si(C(5)H(4))(2)MCl(2)] (M = Ti (13), Zr (14)) and isopropylene-bridged metallocene complexes [Me(2)C(C(5)H(4))(2)MCl(2)] (M = Ti (15), Zr (16)) have also been synthesized and applied to ethylene polymerization. In both cases, the titanocene complexes show much higher activities than the corresponding zirconocene analogues, especially at a lower temperature. The molecular structures of complexes 4-9 have been determined by X-ray diffraction. The structure-activity relationships, especially the effects of the bridges of ansa-metallocene complexes, are discussed.     

取代茚基的茂金属Ti、Zr化合物的合成及其催化乙烯聚合活性

茂金属化合物;烯烃聚合;取代茚基的茂金属Ti、Zr化合物的合成及其催化乙烯聚合活性     

含有烯丙基亚胺酚配体的ⅣB族烯烃聚合催化剂以及制备双峰分布聚乙烯(英)

选择含有烯丙基亚胺酚为辅助配体，设计合成了5个ⅣB族钛锆金属络合物[{CH₂=CHCH₂N=CH-C₆H₃(3-R)O}₂MCl₂](4a：R=t-Bu，M=Zr；4b：R=t-Bu，M=Ti；4c：R=Ph，M=Zr；4d：R=Ph，M=Ti)和[{(CH₃)₂CHCH₂N=CH-C₆H₃(3-t-Bu)O}₂ZrCl₂] (5)，对它们进行了红外光谱、核磁共振及元素分析表征。并用X-射线单晶衍射法测定了化合物4a和4d的晶体结构。部分配合物在助催化剂MMAO的作用下对烯烃聚合显示了较好的催化活性，其中自固载催化剂4a生成了双峰分布的聚烯烃产品 (M_w/M_n=15.3～31.9)。     

Silica-supported alkylidene complexes: their preparation, characterization and reactivity, especially towards olefins

When silica is employed as a bidentate ligand to bis(alkyl) complexes of the early first-row transition metals, rare terminal alkylidene fragments are readily formed and stabilized. These materials have the empirical formula (SiO)₂M=CHEMe₃, where M is Ti, V, or Cr and E is C or Si, incorporating two covalent interactions with oxygens of the silica surface which serve to immobilize the grafted complexes. The silica-supported alkylidene complexes undergo several typical reactions, including electrophilic cleavage with H⁺ and Br₂, metathetical exchange with acetone and styrene, and addition of a silane. Reaction with ethylene leads to oligomerization/polymerization, for which the material with M=Cr is particularly effective. The mechanism of initiation of polymerization, as well as the influence of the silica support (fumed versus precipitated) on the composition of the active sites, is discussed.     

Synthesis and Catalytic Application of Homo-bimetallic Metallocene Complexes as Ethylene Polymerization Catalysts

ＩｎｔｒｏｄｕｃｔｉｏｎＩｔｉｓｗｅｌｌｋｎｏｗｎｔｈａｔｍｅｔａｌｌｏｃｅｎｅｓａｃｔｉｖａｔｅｄｗｉｔｈｍｅｔｈｙｌａｌｕｍｉｎｏｘａｎｅ (ＭＡＯ)ａｒｅｈｉｇｈｌｙａｃｔｉｖｅｈｏｍｏｇｅｎｅｏｕｓＺｉｅｇｌｅｒ Ｎａｔｔａｃａｔａｌｙｓｔｓｔｈａｔｐｒｏｄｕｃｅｐｏｌｙｏｌｅｆｉｎｗｉｔｈｃｏｎ ｔｒｏｌｌｅｄｓｔｅｒｅｏｒｅｇｕｌａｒｉｔｙａｎｄｎａｒｒｏｗｍｏｌｅｃｕｌａｒｗｅｉｇｈｔｄｉｓｔｒｉ ｂｕｔｉｏｎ ,1 4 ｈｏｗｅｖｅｒ,ｔｈｅｍｏｌｅｃｕｌａｒｗｅｉｇｈｔｏｆｔｈｅｐｏｌｙｍ…     

蒙脱土负载聚合催化剂用于乙烯原位共聚制备LLDPE

将蒙脱土 (MMT)负载的聚合催化剂rac Et(Ind) 2 ZrCl2 和均相低聚催化剂 { [(2 ArNC(Me) ) 2 C5H3N]FeCl2 } (Ar=2 ,4 C6 H4 (Me) 2 )组成双功能催化体系用于乙烯原位共聚制备线性低密度聚乙烯 (LLDPE) .通过调节两种催化剂之间的比例和MAO的用量制备了一系列支化度不同的LLDPE产品 .聚合反应动力学曲线表明 ,两种催化剂表现出各自的乙烯吸收特征 ,蒙脱土负载化的共聚催化剂催化乙烯聚合时反应平稳易控制 .DSC曲线表明 ,聚合物的熔点和结晶度随Fe Zr的增大而减小 .用密度梯度法测得的聚合物密度随Fe Zr的增大而降低 .从1 3C NMR谱图上可以看到 ,得到的聚合物是LLDPE ,其支化度随Fe Zr的增大而增大 ,聚合物中仍含有未共聚的α 烯烃 ,这一点从GPC上也能得到验证 .扫描电镜 (SEM)照片表明用这种双功能催化剂共聚得到的LLDPE具有良好的形态     

Theoretical evaluation of ethylene insertion into chromium alkyl bonds of Cp-donor-based olefin polymerization catalysts

We propose routes for the catalytic cycle and possible termination reactions for the polymerization of ethylene with cationic chromium complexes of the type [CpCr(L)R](+) which contain donor ligands with phosphorus or nitrogen (L = PR(3) or NR(3)). We confirm the rate-determining character of the insertion of ethylene into the chromium-alkyl bond. Contrary to the situation with late transition metals, the resulting agostic isomers will readily isomerize. The termination of the polymerization reaction by β-hydrogen elimination to the chromium center and subsequent dissociation of the resulting olefin is found to require about 25 kcal/mol and to be thermodynamically much less feasible than the alternative termination process by β-hydrogen transfer to a monomer. The latter process involves spin change; two minimum-energy crossing points as well as further transition states and intermediates have been identified. Our calculations predict that adduct formation with the polymerization additive 9-BBN should be feasible both from a Cp-quinoline-based chromium catalyst and a zirconocene catalyst. However, only the latter undergoes exergonic chain transfer, which is in accordance with the experimentally observed formation of ultrahigh M(W) polyethylene when using 9-BBN as polymerization additive in combination with Cr catalysts. For the first time, quantum dynamics simulations of such open-shell systems have been performed, which give a lifetime of the Cr-alkyl complex with regard to ethylene insertion of only 500 fs. The simulations indicate that the dissociation of ethylene from the chromium center should be relatively insignificant compared to migratory insertion.     

柄型茂金属化合物(Ⅲ)──四甲基二硅桥连二(1-茚基和四氢茚基)钛和锆化合物的合成及催化乙烯聚合

1,2二(1茚基)四甲基二硅烷相继与丁基锂及MCl₄·2THF作用,生成四甲基二硅桥连二(1茚基)钛和锆化合物(Me₂SiSiMe₂)[Ind]₂MCl₂[M=Ti(1),Zr(2)].对其进行催化氢化,得到相应的四氢茚基化合物(Me₂SiSiMe₂)[IndH₄]₂MCl₂[M=Ti(3),Zr(4)].通过元素分析、MS和1HNMR谱表征了化合物的分子结构,并研究了在MAO(MethylAluminoxane)的助催化下,化合物3和4对乙烯聚合的催化性能.同锆化合物4相比,钛化合物3活性较低,但得到聚乙烯的分子量却相当高.催化剂的活性和聚乙烯的分子量都具有明显的温度效应.