对金属稀土金属有机配合物的合成、结构及催化性质研究

合成出三类18种双金属稀土金属有机配合物：第一类：Ln-Li双金属π－烯丙基稀土配合物－LiLn(π-C_3H_5)_4 nD(Ln=La、Tb, n=3; Ln=Y、Dy, n=2.5; Ln=Ce、Pr、Nd、Sm、Gd、Er, n=2; D=二氧六环）。第二类：Ln-Mg双金属π－烯丙基稀土配合物-(π-C_3H_5)_2CnCl_5Mg_2(tmed)_2 (Ln=Ce、Nd)和(π-C_4H_7)_2LnCl_5Mg_2(tmed)_2 (Ln=La、Ce、Nd; C_4H_7=i-C_4H_7)。第三类：Ln-Al双金属配合物－[(CF_3CO_2)_3LnHAlR_2·2THF]_2 (Ln=Y、Nd, R=i-Bu; Ln=Eu, R=Et)。用四园X－ray衍射仪在低温下测定了LiCe(π-C_3H_5)_4·4D、[(CF_3CO_2)_3YHAl(i-Bu)_2 2THF]_2、[(CF_3CO_2)_3NdHAl(i-Bu)_2 2THF]_2和[(CF_3CO_2)_3EuHAlEt_2·2THF]_2的晶体结构。对[(CF_3CO_2)_3YHAl(i-Bu)_2·2THF]_2和LiLn(π-C_3H_5)_4 nD类配合物进行了较详细的NMR研究。二维C－H相关NMR谱表明在[(CF_3CO_2)_3YHAl(i-Bu)_2·2THF]_2配合物中6个CF_3CO_2~-有2个羰基的C与H成键，该结果解释了Ln-Al双金属配合物中相应羰基的非平面结构现象。研究表明LiLn(π-CC_3H_5)_4·nD可催化异戊二烯和苯乙烯均聚合；不同配合物中均以Y配合物的活性为最高。(π-C_3H_5)_2CeCl_5Mg_2(tmed)_2对异戊二烯、丁二烯、苯乙烯以及甲基丙烯酸甲酯（MMA）的聚合有较低的催化活性；(π-C_4H_7)_2LnCl_5Mg_2(tmed)_2也对苯乙烯和异戊二烯的聚合有一定的催化活性。分别以LiCe(π-C_3H_5)_4·4D和(π-C_3H_5)_2CeCl_5Mg_2(tmed)_2作为稀土配位催化剂的模型配合物，研究了其催化所得聚异戊二烯的端基结构。表明聚合物均具有烯丙基端基(-CH_2-CH=CH_2)。证明单体在Ce~(3+)和π－烯丙基之间发生了插入反应，聚合按π－烯丙基机理进行。该结果首次为稀土配位催化共轭双烯烃聚合的活性链端π－烯丙基机理提供了直接的实验证据。(π-C_3H_5)_2CeCl_5Mg_2(tmed)_2-Al(i-Bu)_3(Al/Ce(摩尔比)=4))体系对异戊二烯的聚合具有较高的催化活性，所得聚合物仍具有－CH_3-CH=CH_2端基，而没有i-Bu端基。该结果又一次为上述π-烯丙基机理提供了直接的实验证据。发现Ln(CF_3CO_2)_3-AlEt_3体系可催化THF开环聚合。首次实现稀土催化THF开环聚合。研究了Y(CF_3CO_2)_3-HAl(i-Bu)_2-ECH（环氧氯丙烷）体系催化THF开环聚合法性及聚合机理。讨论了各种聚合条件对该体系催化活性的影响。研究了[(CF_3Co_2)YHAl(i-Bu)_2·2THF]_2在ECH存在下催化THF聚合活性并认为该双金属配合物为Y(CF_3CO_2)_3-HAl(i-Bu)_2-ECH体系的活性体。[(CF_3CO_2)_3YHA(i-Bu)_2·2THF]_2和[(CF_3CO_2)_3EuHAlEt_2·2THF]_2均可催化ECH和MMA聚合，所得PMMA的间同(rr)含量可达76.5％。

席佛碱催化剂(Salen Co(Ⅲ))催化二氧化碳和环氧氯丙烷的共聚

利用席佛碱催化体系催化二氧化碳(CO2)和环氧氯丙烷(ECH)共聚反应,合成出新型环状碳酸酯(ECHCO2)。利用红外光谱、核磁等方法对产物进行了表征。结果表明,最优化的试验温度是60℃,这一催化剂体系催化的活性高达920 polymer/(mol Co h),并且有较高的选择性,高达99%。

Synthesis of lanthanide-alkylaluminium bimetallic complexes and studies on their catalytic activities for polymerization of some polar monomers

Three new lanthanide (Ln)-alkylaluminium (Al) bimetallic complexes with the formula [(mu-CF3CO2)(2)Ln(mu-CF3CHO2)AIR(2) . 2THF](2) (Ln = Nd, Y, R=i-C4H9 (i-Bu); Ln=Eu, R=C2H5(Et); THF=tetrahydrofuran) were synthesized by the reaction of Ln(CF,CO,), (Ln=Nd, Y) with HAI (i-Bu)(2) and of Eu(CF3CO2)(3) with AlEt(3), respectively. Their crystal structures were determined by X-ray diffraction at 233 K. [(mu-CF3CO2)(2)Nd (mu-CF3CHO2)Al(i-Bu)(2) . 2THF](2) (Nd-Al) and [(mu-CF3CO2)(2)Y(mu-CF3CHO2)Al(i-Bu)(2) . 2THF](2) (Y-Al) are isomorphous and crystallize in space group with a=12.441(3) Angstrom [12.347(5) Angstrom for Y-Al], b=12.832(3) Angstrom [12.832(4) Angstrom], c=11.334(3) Angstrom [11.292(8) Angstrom], alpha=104.93 (2)degrees [104.45(4)degrees], beta=98.47(2)degrees [98.81(4)degrees], gamma=64.60(2)degrees [64.30(3)degrees], R=0.519 [0.113], R(w)=0.0532 [0.110], Z=1 and [(mu-CF3CO2)(2)Eu(CF3CHO2)AlEt(2) . 2THF](2)(Eu-Al) in space group P2(1)/n with a=11.913(6) Angstrom, b=14.051(9) Angstrom, c=17.920(9) Angstrom, alpha=101.88(11)degrees, beta=gamma=90 degrees, R=0.0509, R(w)=0.0471 and Z=2. The six CF3CO2- (including CF3CHO2-) of each complex, among which pairs are equivalent, coordinated to Ln and Al in three patterns: (A) the two oxygen atoms in one of the three CF3CO2- type coordinated to two different Ln; (B) the two oxygen atoms in the second of CF3CO2- type coordinated to Ln and Al, respectively; (C) one of the two oxygen atoms in the third CF3CO2- type bidentately coordinated to two Ln and another oxygen coordinated to Al and one of the two Ln, respectively. Unlike types A and B, in type C the carboxyl carbon with a hydrogen atom bonded to it was found to appear as an sp(3)-hybridized configuration rather than an sp(2)-one. 1D and 2D NMR results further confirmed the existence of such a disproportionated CF3CHO2- ligand. Methyl methacrylate (MMA) and epichlorohydrin (ECH) could be polymerized by Y-Al or Eu-Al as a single-component catalyst and highly syndiotactic poly(MMA) was obtained. THF could also be polymerized by Y-Al in the presence of a small amount of ECH.

SYNTHESES AND CHARACTERIZATION OF [(MU-CF3CO2)(2)LN(MU-CF3CHO2)ALR(2)CENTER-DOT-2THF](2) AND THEIR CATALYTIC ACTIVITIES FOR POLYMERIZATION OF SOME POLAR MONOMERS

Three new bimetallic complexes were synthesized and crystalized by reactions of (CF3CO2)(3)Ln With R(1) AlR(2)(Ln=Nd and Y, R(1)=H, R=i-C4H9; Ln=Eu, R=R(1)=C2H5) in tetrahydrofuran solution, and their crystal structures were determined using a X-ray diffraction method. The structures and the questions on valence state and noncoplanarity in the structures were confirmed and cracked by means of H-1 NMR and C-13 NMR spectra, especially by C-13-H-1 COSY 2D NMR technique. A general formula of molecules of the three rare earth complexes was defined as follows: [(mu-CF3CO2)(2)Ln(mu-CF3CHO2)AlR(2) . 2THF](2) A mechanism on the formation of the new complexes was also proposed through the following five steps: alkylating, beta-elimination (or hydrogenation), hydrogen transfer, linkage and association. Both Y-Al and Eu-Al complexes function as a catalyst in polymerization of MMA and ECH. The polymer obtained from the first monomer is mainly syndiotactic chain structure and the polymerization of the last monomer shows higher catalytic activity. The Y-Al complex also capable of ring-opening polymerization of THF in case of adding-vary small amount of ECH and a oxonium ion mechanism of THF polymerization was suggested from the analysis of THF polymer terminal.

[(μ-CF_3CO_2)Ln(μ-CF_3CHO_2)AIR_2·2THF]_2的合成和表征及其对某些极性单体的催化活性

通过(CF_3CO_2)_3Ln(Ln=Nd、Y和Eu)和R~1AlR_2(R~1=H,R=i-C_4H_9;R~1=R=C_2H_5),反应首次合成和培养出Nd-Al、Y-Al和Eu-Al三种新的双金属稀土配合物和晶体,并用X射线衍射法测定出它们的晶体结构,然后再用二维波谱技术,进一步证实和完善了晶体结构中的价态和非共面现象.由此确定这三种稀土配合物分子式的通式为:[(μ-CF_3CO_2)_2Ln(μ-CF_3CHO_2)AlR_2·2THF]_2.根据实验结果还提出了通过烷基化、β-消除(或氢化)、氢转移、键合及缔合等五个步骤生成这些配合物的反应机理.这些配合物单独可使MMA和ECH催化聚合,前者可获得主要以间同结构聚合物,后者聚合催化活性较高,在极少量的ECH存在下,还可使THF开环聚合,并通过PTHF端基分析,提出了(钅羊)离子聚合反应机理.