Department of Chemistry, Shanghai Key Laboratory of, Molecular Catalysis and Innovative Materials, Fudan University, Shanghai, 200438, China.
State Key Laboratory of Organometallic Chemistry, Shanghai, 200032, China.
Chemistry. 2019 Feb 18;25(10):2569-2576. doi: 10.1002/chem.201804944. Epub 2019 Jan 24.
Mononuclear amidinate yttrium complex C H C(NR) Y(o-CH C H NMe ) (R=2,6-iPr C H ) and a series of binuclear rare-earth metal complexes bearing a bridged amidinate ligand [(RN) C(CH ) C(NR) ][RE{CH C H (o-NMe )} ] (R=2,6-iPr C H , RE=Y, Lu, Sc) were synthesized and fully characterized. The catalytic behavior of these complexes for (co)polymerization of conjugated dienes such as isoprene and myrcene in the presence of co-catalyst [Ph C][B(C F ) ] was investigated. These catalytic systems show impressively high activity and 3,4-regioselectivity in living (co)polymerization. The binuclear bridged amidinate yttrium catalytic system not only exhibits the highest activity among the reported catalytic systems for 3,4-polymerization of isoprene but also allows the steady polymerization in a living manner from -20 to 80 °C. Compared with the dramatic drop of 3,4-selectivity for the mononuclear analogue, the binuclear catalytic system still shows moderate 3,4-selectivity at 80 °C. Moreover, a facile one-pot synthetic strategy for a polymer blend containing 3,4- and 1,4-polyisoprene (PIP) was established through the in situ modification of the active amidinate yttrium species by addition of an excess amount of AlMe .
单核酰胺钇配合物 C H C(NR) Y(o-CH C H NMe )(R=2,6-iPr C H)和一系列含有桥连酰胺配体的双核稀土金属配合物[(RN) C(CH ) C(NR) ][RE{CH C H (o-NMe )} ](R=2,6-iPr C H,RE=Y,Lu,Sc)被合成并进行了全面表征。这些配合物在助催化剂[Ph C][B(C F ) ]存在下对共轭二烯(如异戊二烯和月桂烯)的(共)聚合的催化性能进行了研究。这些催化体系在(共)聚合反应中表现出非常高的活性和 3,4-区域选择性。双核桥连酰胺钇催化体系不仅在报道的异戊二烯 3,4-聚合的催化体系中表现出最高的活性,而且允许在-20 至 80℃的条件下以活性聚合的方式进行稳定聚合。与单核类似物的 3,4-选择性急剧下降相比,双核催化体系在 80℃时仍表现出中等的 3,4-选择性。此外,通过向活性酰胺钇物种中加入过量的 AlMe ,建立了一种通过原位修饰来制备含有 3,4-和 1,4-聚异戊二烯(PIP)的聚合物共混物的简便一锅法合成策略。
