有机金属烯烃配位聚合催化剂

有机金属烯烃配位聚合催化剂具有高催化活性和良好的分子剪裁性,通过调节催化剂的微结构,如配体的取代基?配位原子以及配位中心的电子与立体环境等,可以在分子层次上实现烯烃聚合物的分子设计与组装;实现聚合物物理性质的调控,从而得到各种具有新型功能和立体异构的聚合物。本文综述了金属烯烃聚合催化剂研究进展,并展望该领域的发展趋势。     

聚合物载体负载TiCl4/I-Bu3Al催化烯烃聚合

聚合物负载催化剂;聚合物载体负载TiCl4/I-Bu3Al催化烯烃聚合     

聚合物载体负载TiCl4/I-Bu3Al催化烯烃聚合

探讨了聚合物负载烯烃聚合催化剂的合成及用于聚合的研究,研究了聚合物作为载体的催化和赤,并通过ＩＲ,ＤＳＣ,元素分析和粘度法测定分子量等手段对催化剂及聚合物进行了表征,包括合成聚合物负载的Ｔi体系催化剂和用所合成的催化剂进行了乙烯聚合,乙烯、丙烯与丁二烯共聚合的研究。     

镍配合物催化乙烯齐聚和聚合的进展

继SHOP催化体系采用镍配合物催化乙烯齐聚制备端烯烃在研究和应用中获得成功以来,由于后过渡金属上容易产生β-氢消除反应,镍配合物催化乙烯的研究搁置了近二十年。然而,近十年里,镍配合物催化乙烯齐聚和聚合研究再次受到催化剂研究者的重视,进入了飞速发展的新时期。本文综述近三年间这个领域的发展,特别是我国学者在这个领域的贡献,展示了镍配合物在乙烯齐聚和乙烯聚合制备支化聚烯烃中的巨大潜力,促进该领域研究的发展。     

IVB金属配合物催化烯烃聚合的研究进展

IVB金属配合物催化烯烃聚合的研究,不仅为工业界提供大量新型高效的催化剂模型,同时也为探索烯烃配位聚合机理提供了可能.更为重要的是,这些新型的配合物催化剂,可以制备具有优异性能的新型聚烯烃树脂.研究的核心仍然是新型聚烯烃催化剂,基于配合物中配位原子种类的不同,将催化剂的种类分为氮配位和氧配位催化剂.文中综述了近年来IVB金属配合物作为烯烃聚合催化剂的研究进展,集中讨论催化剂结构的变化对催化性能的影响.     

吡啶亚胺(胺)钒烯烃聚合催化剂

设计合成了一系列以吡啶二亚胺、吡啶胺-亚胺和吡啶二胺为螯合配体的三价钒配合物2a2e, 并通过红外和元素分析等技术手段对其进行了结构表征。 在助催化剂和再生活化剂的存在下, 这些催化剂展示出了高活性和良好的高温稳定性。 得到高相对分子质量、单峰分布聚乙烯表明聚合体系为单活性中心。 以吡啶二胺为螯合配体的配合物2e(2, 6-bis[2, 6-(ⁱPr)₂PhNC(Me)]₂(C₅H₃N)VCl)在50 ℃下显示出的活性高达6.96 kg PE/mmol_V·h, 且在70 ℃时仍保持高的催化活性, 这表明双阴离子吡啶二胺能更好的保护催化活性中心。 此外, 这类三价钒催化剂能高活性催化乙烯-降冰片烯及乙烯-己烯共聚, 在温和条件下即可得到较高单体插入率(降冰片烯37.3%, 己烯4.8%)的共聚物。     

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。     

Synthesis, Characterization and Application of Benzyl-substituted Cyclopentadienyl lanthanide Complexes as Catalyst Precursors for the Syndiotactic Polymerization of Methyl Methacrylate

Benzyl-substituted cyclopentadienyl lanthanide complexes were synthesized and characterized by elemental analysis, MS and IR spectroscopy. The analytical data point out the formation of monomeric, unsolvated complexes.In conjunction with AI(Et)3 as co-catalyst, the title complexes are efficient catalysts for the syndiotactic polymerization of methyl methacrylate. For the complex (C6HsCH2C5H4)2YCl, under the optimum polymerization conditions(60℃,n(MMA):n(catalyst):n(co-catalyst)=1000:1:10),a predominantly syndiotactic (rr=66%) polymerof high molecular weight (Mη=105000) was obtained.     

水杨亚胺基钯催化聚合丙烯的密度泛函理论研究

Grubbs水杨亚胺基镍/钯催化剂是一类新型含氮、氧配位杂原子的中性单组分 烯烃聚合催化剂。以不带取代基的水杨亚胺钯为模型催化剂，采用密度泛函理论 在B2LYP/LANL2DZ水平上对其催化聚合丙烯的链增长机理进行了研究。与催化剂配 位原子氮的对位进攻相比，丙烯从氧的对位进攻的复合能大、插入能低。当烷基链 在配位原子O的对位时1，2-插入速率低于2，1-插入；当烷基链在配位原子N对位时 ，1，2-插入速率高于2，1-插生产方式。能量量低的插入路径是烷基链在N对位是 的1，2-插入。2，1-插入路径中的γ-氢桥键烷基配合物能异构化得三个β-氢桥键 的烷基配合物，空间位阻最小的最稳定。1，2-插往前只生成一个β-氢桥键烷基配 合物。与氮原子对位的配合物相比，所有在配位原子氧对位的β-氢桥键的烷基配 合物都是更稳定的配合物构型。     

Solid-Phase Synthesis and Encoding Strategies for Olefin Polymerization Catalyst Libraries

Active polymerization catalysts , novel resin-bound diimine complexes of nickel(II ) and palladium(II ) are obtained by combinatorial synthesis and combined in a catalyst library. By tagging with fluorescent markers, the catalysts can be coded. Therefore, after cleavage of the tag from the polymer-coated resin, HPLC can be used to determine the pathway along which the products were formed.     

Mesoionic Carbene Cobalt Complexes as Multipurpose Catalyst Precursors for Hydrosilylation and Dihydropyrimidinone Synthesis

Metalation of CH₂OH-substituted triazolium salts with CoCl₂ under basic conditions affords C,O-bidentate chelating carbene Co(III) complexes ( 3a , 3b ), while analogous phenyl-substituted triazolium salts produce monodentate carbene Co(II) complexes ( 3c , 3d ). The distinct substituent-induced properties of the metal centers were demonstrated by electrochemical measurements and catalytic activities in two specific processes. The complexes showed appreciable activity in the reduction of C=O bonds through hydrosilylation, with methoxybenzene-functionalized triazolylidene Co(III) complex 3a achieving a high selectivity towards aldehydes vs. ketones with turnover frequencies (TOFs) up to 200 h⁻¹. The C,O-chelate systems were also active catalysts in the Biginelli process, a one-step three-component reaction for efficient dihydropyrimidinone synthesis. Optimization of reaction conditions provides high activity with complex 3a , reaching TOFs of 800 h⁻¹, the highest activity known for cobalt NHC complexes to date.     

Oligomerization and Polymerization of Ethylene Initiated by a Novel Ni(Ⅱ)-Based Acetyliminopyridine Complexes as Single-Site Catalysts

Novel Ni(Ⅱ)-based acetyliminopyridine complexes 1b, 2b, 3b (1-3b), which are synthesized from ligands 1a, 2a, 3a (1-3a) and [NiCl2(DME)], are suitable precursors for the catalysts that are necessary for ethylene oligomerization and polymerization reactions, activated by methylaluminoxane (MAO).The MAO-treated 1-3b presents an active catalytic center, which may oligomerize and polymerize ethylene to produce linear α-olefins and polyethylene, respectively. The molecular weight distributions of oligomers that are obtained are in good agreement with the Schulz-Flory rules for oligomers＞C4. The activity of oligomers show significant reliance on the structures of catalyst precursors.     

Oligomerization and Polymerization of Ethylene Initiated by a Novel Ni（II）-Based Acetyliminopyridine Complexes as Single-Site Catalysts

Novel Ni(II)-based acetyliminopyridine complexes 1b, 2b, 3b (1-3b), which are synthesized from ligands 1a, 2a, 3a (1-3a) and [NiCl2(DME)], are suitable precursors for the catalysts that are neces- sary for ethylene oligomerization and polymerization reactions, activated by methylaluminoxane (MAO). The MAO-treated 1-3b presents an active catalytic center, which may oligomerize and polymerize ethylene to produce linear α-olefins and polyethylene, respectively. The molecular weight distributions of oligomers that are obtained are in good agreement with the Schulz-Flory rules for oligomers>C4. The activity of 3b-MAO complex is 6.3E7 g/(molNi·h) at 50 ℃. The activities and molecular weight distributions of oligomers show significant reliance on the structures of catalyst precursors.     

后过渡金属配合物催化乙烯齐聚与聚合的研究进展

后过渡金属配合物催化乙烯齐聚和聚合研究,不仅拓展了后过渡金属配合物的应用 ,而且为探求烯烃聚合催化剂提供了新机遇,成为当前催化研究中的热点课题.本文综述了后过渡金属铁、钴、镍配合物催化乙烯齐聚和聚合的国内外最新研究进展.     

柄型金属有机化合物(V)——锗桥连茚基及取代茚基锆化合物的合成及催化烯烃聚合

锗桥连茚及取代茚配体相继与丁基锂及ＺｒＣｌ４作用,生成锗桥连茚基及取代茚基锆化合物Ｍｅ２Ｇｅ(２－Ｒ１－４－Ｒ２－Ｉｎｄ)２ＺｒＣｌ２[Ｒ１＝Ｒ２＝Ｈ(１);Ｒ１＝Ｍｅ,Ｒ２＝Ｈ(２);Ｒ１＝Ｍｅ,Ｒ２＝Ｐｈ(３)]．化合物１－３均为内消旋和外消旋异构体的混合物,通过多次重结晶得到化合物１和２的纯外消旋异构体及化合物３的内消旋异构体．由元素分析和１Ｈ ＮＭＲ谱表征了化合物的分子结构．研究了在甲基铝氧烷(ＭＡＯ)的助催化下,化合物１－３对乙烯和丙烯聚合的催化性能．由锗桥连茚基化合物１－３得到的聚乙烯的分子量分布比一般茂金属催化剂略宽．内消旋和外消旋异构体的混合物(３)由于两个催化活性中心不等同而使得到的聚乙烯的分子量分布相当宽．外消旋异构体１和２催化丙烯聚合得到高等规聚丙烯．     

含有不同配体的钴配合物/EAO催化乙烯齐聚

考察了（bipy)CoCl2,(C6H5N=C-C6H4-o-O)2Co和（acac)2CO 3种配合物与EAO组成的二元催化体系A，B和C，在不同的反应温度，铝钴比以及不同反应时间对乙烯齐聚催化活性和选择性的影响，结果表明，3种催化体系都对催化乙烯齐聚反应有活性，在相同的反应条件下，3种催化体系对乙烯齐聚的催化活性顺序为：A＞B＞C，在反应温度为180摄氏度时，催化体系（bipy)CoCl2/EAO的活性为2441g/(gCo.H)，产物中低碳烯烃的选择性为95．9％。     

Bis(Phenoxy‐Imine) Zr Complexes/Et3Al/Heteropoly Compound Catalyst Systems for Ethylene Polymerization

Bis(phenoxy‐imine) Zr complexes upon activation with Et₃Al/(Ph₃C)_mH_n[PMo₁₂O₄₀] · 8 H₂O (average: m/n = 2:1) were demonstrated to be highly active catalysts for the polymerization of ethylene. One of the complexes formed narrow‐molecular‐weight distributed polyethylene ( 1.45) with a very high activity (5640 kg‐PE · mol‐cat⁻¹ · h⁻¹), representing the first example of a MAO‐ and borate‐free, highly active, single‐site catalyst system based on a Group 4 transition metal complex and a heteropoly compound.

Catalysis of ethylene with bis(phenoxy‐imine) Zr complexes activated with Et₃Al/(Ph₃C)_mH_n[PMo₁₂O₄₀] · 8 H₂O.