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MOFs Extend the Lifetime of Pd(II) Catalyst for Room Temperature Alkenylation of Enamine‐Like Arenes
Advanced Synthesis & Catalysis ( IF 5.4 ) Pub Date : 2018-09-13 , DOI: 10.1002/adsc.201800817 Francisco G. Cirujano 1 , Pedro Leo 2 , Jannick Vercammen 1 , Simon Smolders 1 , Gisela Orcajo 2 , Dirk E. De Vos 1
Advanced Synthesis & Catalysis ( IF 5.4 ) Pub Date : 2018-09-13 , DOI: 10.1002/adsc.201800817 Francisco G. Cirujano 1 , Pedro Leo 2 , Jannick Vercammen 1 , Simon Smolders 1 , Gisela Orcajo 2 , Dirk E. De Vos 1
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The synthesis of pharmaceutically relevant scaffolds, such as substituted indoles or uracils, through the alkenylation of the “enamine‐like” aromatic C−H bond is performed at room temperature using catalytic amounts of Pd(OAc)2 in the presence of redox active, stable and reusable metal‐organic microporous frameworks. This is the first time that redox/acid active sites in the porous, non‐toxic and earth abundant robust MOF‐74 platform are used to avoid the fast deactivation of the cationic Pd species working under ambient conditions.
中文翻译:
MOF延长了烯胺样芳烃室温烯化的Pd(II)催化剂的寿命
在室温下,在氧化还原活性物质存在的情况下,使用催化量的Pd(OAc)2,通过“类烯胺”芳族CH键的烯基化反应合成药物相关的支架,例如取代的吲哚或尿嘧啶。稳定且可重复使用的金属有机微孔框架。这是首次在多孔,无毒且富含泥土的坚固MOF-74平台上使用氧化还原/酸活性位点,以避免在环境条件下工作的阳离子Pd物种快速失活。
更新日期:2018-09-13
中文翻译:
MOF延长了烯胺样芳烃室温烯化的Pd(II)催化剂的寿命
在室温下,在氧化还原活性物质存在的情况下,使用催化量的Pd(OAc)2,通过“类烯胺”芳族CH键的烯基化反应合成药物相关的支架,例如取代的吲哚或尿嘧啶。稳定且可重复使用的金属有机微孔框架。这是首次在多孔,无毒且富含泥土的坚固MOF-74平台上使用氧化还原/酸活性位点,以避免在环境条件下工作的阳离子Pd物种快速失活。
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