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手性多孔有机聚合物具有较高的稳定性和催化活性,广泛用于多相不对称催化中.目前研究多集中在合成具有微孔结构的聚合物,而少有具有多种孔道结构(包含介孔和微孔)的聚合物的报道.之前我们报道了乙烯基修饰的BINAP配体,(S)-5,5'-divinyl-BINAP,将其与不同单体共聚后得到了一系列具有不同孔结构的有机聚合物.其负载的Rh基催化剂在苯乙烯不对称氢甲酰化反应中,表现出比均相更高的产物对映体选择性.本文采用不同的溴代步骤,合成了(S)-4,4'-divinyl-BINAP配体.将这两种具有乙烯基官能团的手性配体按相同的摩尔比与二乙烯基苯(DVB)共聚,得到两种不同的有机聚合物.负载[RuCl2(benzene)]2后,分别得到Ru/4-BINAP@POPs和Ru/5-BINAP@POPs-1.采用一锅法合成了催化剂Ru/5-BINAP@POPs-2;以[RuCl2(p-cyme)]2和RuCl3分别合成了Ru/5-BINAP@POPs-3和Ru/5-BINAP@POPs-4催化剂.N2物理吸附结果显示,Ru/4-BINAP@POPs和Ru/5-BINAP@POPs-1催化剂具有相似的孔道结构;而采用一锅法合成的Ru/5-BINAP@POPs-2催化剂的介孔孔径较大.4-BINAP@POPs和5-BINAP@POPs聚合物的13C核磁显示,其均在145,137和128 ppm处有明显的吸收峰,可归结为萘环和苯环上的碳振动峰;在44.0 ppm处的峰归属为亚甲基上的碳振动峰;31P核磁显示,在聚合物中P基本没有被氧化.将所得到的Ru/POPs催化剂应用于乙酰乙酸甲酯的多相不对称加氢反应中,Ru/5-BINAP@POPs-1催化剂具有与Ru/4-BINAP@POPs更快的反应速率.在相同反应条件下,催化剂活性大小为Ru/5-BINAP@POPs-1>Ru/5-BINAP@POPs-3>Ru/5-BINAP@POPs-4>Ru/5-BINAP@POPs-2.另外Ru/5-BINAP@POPs-1催化剂对β-酮酸酯有着较好的底物适应性,且在釜式反应中可循环使用6次而活性基本不变.分析发现,使用前后的催化剂均没有明显的Ru–Ru键的存在.表明Ru金属高度分散于催化剂上,且具有较高的稳定性,金属不易聚集,这也是其具有高活性和稳定性的原因.

Two vinyl-functionalized chiral 2,2'-bis(diphenylphosphino)-1,1'-binaphthyl (BINAP) ligands, (S)-4,4'-divinyl-BINAP and (S)-5,5'-divinyl-BINAP, were successfully synthesized. Chiral BINAP-based porous organic polymers (POPs), denoted as 4-BINAP@POPs and 5-BINAP@POPs, were efficiently prepared via the copolymerization of vinyl-functionalized BINAP with divinyl ben-zene under solvothermal conditions. Thorough characterization using nuclear magnetic resonance spectroscopy, thermogravimetric analysis, extended X-ray absorption fine structure analysis, and high-angle annular dark-field scanning transmission electron microscopy, we confirmed that chiral BINAP groups were successfully incorporated into the structure of the materials considered to contain hierarchical pores. Ru was introduced as a catalytic species into the POPs using different synthetic routes. Systematic investigation of the resultant chiral Ru/POP catalysts for heterogene-ous asymmetric hydrogenation of β-keto esters revealed their excellent chiral inducibility as well as high activity and stability. Our work thereby paves a path towards the use of advanced hierarchical porous polymers as solid chiral platforms for heterogeneous asymmetric catalysis.

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