Suzuki-Miyaura reaction of aryl halides with phenylboronic acid using a heterogeneous palladium catalyst based on activated carbons(AC) was systematically investigated in this work. Two different reaction modes(batch ...Suzuki-Miyaura reaction of aryl halides with phenylboronic acid using a heterogeneous palladium catalyst based on activated carbons(AC) was systematically investigated in this work. Two different reaction modes(batch procedure and continuous-flow procedure) were used to study the variations of reaction processing. The heterogeneous catalysts presented excellent reactivity and recyclability for iodobenzene and bromobenzene substrates in batch mode, which can be attributed to stabilization of Pd nanoparticles by the thiol and amino groups on the AC supports. However, significant dehalogenation in the reaction mixture and Pd leaching from the heterogeneous catalysts were observed in continuous-flow mode.This unique phenomenon in continuous-flow mode resulted in a dramatic decline in reaction selectivity and durability of heterogeneous catalysts comparing with that of batch mode. In addition, the heterogeneous Pd catalysts with thiol-and amino-modified AC supports exhibited different reactivity and durability in batch and continuous-flow mode owing to the difference of interaction between Pd species and AC supports.展开更多
Suzuki-Miyaura金属偶联反应是在零价钯配合物的催化下,芳基硼酸或硼酸酯与卤代芳烃发生交叉偶联的过程。该反应具有很强的底物适应性和官能团容忍性,广泛应用于众多天然产物与有机材料的合成。鉴于反应的重要性,近年来国外高校逐渐尝试...Suzuki-Miyaura金属偶联反应是在零价钯配合物的催化下,芳基硼酸或硼酸酯与卤代芳烃发生交叉偶联的过程。该反应具有很强的底物适应性和官能团容忍性,广泛应用于众多天然产物与有机材料的合成。鉴于反应的重要性,近年来国外高校逐渐尝试将Suzuki-Miyaura反应引入到本科生的有机实验教学中。本文针对2000年后Journal of Chemical Education期刊中涉及的Suzuki-Miyaura反应,分别从反应条件、后处理和表征方法、实验拓展等多个方面进行了比较和归纳,并对其设计理念和教学特色进行了综述。展开更多
基金the support of the National Natural Science Foundation of China (20222809, 21978146)TsinghuaFoshan Innovation Special Fund (2021THFS0214)。
文摘Suzuki-Miyaura reaction of aryl halides with phenylboronic acid using a heterogeneous palladium catalyst based on activated carbons(AC) was systematically investigated in this work. Two different reaction modes(batch procedure and continuous-flow procedure) were used to study the variations of reaction processing. The heterogeneous catalysts presented excellent reactivity and recyclability for iodobenzene and bromobenzene substrates in batch mode, which can be attributed to stabilization of Pd nanoparticles by the thiol and amino groups on the AC supports. However, significant dehalogenation in the reaction mixture and Pd leaching from the heterogeneous catalysts were observed in continuous-flow mode.This unique phenomenon in continuous-flow mode resulted in a dramatic decline in reaction selectivity and durability of heterogeneous catalysts comparing with that of batch mode. In addition, the heterogeneous Pd catalysts with thiol-and amino-modified AC supports exhibited different reactivity and durability in batch and continuous-flow mode owing to the difference of interaction between Pd species and AC supports.
文摘Suzuki-Miyaura金属偶联反应是在零价钯配合物的催化下,芳基硼酸或硼酸酯与卤代芳烃发生交叉偶联的过程。该反应具有很强的底物适应性和官能团容忍性,广泛应用于众多天然产物与有机材料的合成。鉴于反应的重要性,近年来国外高校逐渐尝试将Suzuki-Miyaura反应引入到本科生的有机实验教学中。本文针对2000年后Journal of Chemical Education期刊中涉及的Suzuki-Miyaura反应,分别从反应条件、后处理和表征方法、实验拓展等多个方面进行了比较和归纳,并对其设计理念和教学特色进行了综述。
基金supported by the National Natural Science of Foundation of China(21676140)the fund from the State Key Laboratory of Materials-Oriented Chemical Engineering(ZK201402)the Project of Priority Academic Program Development(PAPD) of Jiangsu Higher Education Institutions~~