An article Hollow porous organic nanospheres for anchoring Pd(PPh3)(4) through a co-hyper-crosslinking mediated self-assembly strategy WOS:000531201500058 published article about NANOPARTICLE CATALYSTS; POLYMERS; PALLADIUM; PERFORMANCE in [Liu, Ying; Zhang, Li; Gao, Shengguang; Shi, Buyin; Yu, Haitao; Huang, Kun] East China Normal Univ, Sch Chem & Mol Engn, Shanghai Key Lab Green Chem & Chem Proc, 500 N Dongchuan Rd, Shanghai 200241, Peoples R China in 2020.0, Cited 44.0. The Name is 1-Chloro-2-methylbenzene. Through research, I have a further understanding and discovery of 95-49-8. Safety of 1-Chloro-2-methylbenzene
In this work, we present a facile method for anchoring a transition metal catalyst (Pd(PPh3)(4)) into hollow porous organic nanospheres (H-PONs) based on a co-hyper-crosslinking mediated self-assembly strategy by using polylactide-b-polystyrene (PLA-b-PS) and Pd(PPh3)(4) as precursors. The intrinsic catalytic activity of Pd(PPh3)(4) could be well retained even if immobilized into H-PONs through a one-step Scholl reaction. Owing to the hierarchically porous structure, high surface area and well-dispersed active sites, the resulting H-PONs-Pd(PPh3)(4) exhibited excellent catalytic activity, enhanced stability, and good recyclability for the Suzuki-Miyaura coupling in aqueous media. We hope that such a facile synthesis approach can provide a broad platform to support various transition metal catalysts anchored into hollow porous nanomaterials for the heterogeneous catalysis field.
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Reference:
Patent; Nanjing Zhongteng Chemical Co., Ltd.; Zhong Hua; Lu Minshan; Chen Xiuzhen; Liu Qiaobao; Yin Hengbo; Wang Aili; (8 pag.)CN104876790; (2017); B;,
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