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过渡金属催化C-H键活化避免了经典偶联反应中需要对底物进行卤化或金属化等预活化步骤,己发展成为一种快速、高效的构筑C-C键、C-杂原子键的方法[1-2].平面手性二茂铁以其独特的立体结构和电子效应,在材料科学和药物化学中都有重要的应用.
钯催化C-H键活化合成平面手性二茂铁并[1,2-c]-4-喹啉酮
【摘 要】
:
过渡金属催化C-H键活化避免了经典偶联反应中需要对底物进行卤化或金属化等预活化步骤,己发展成为一种快速、高效的构筑C-C键、C-杂原子键的方法[1-2].平面手性二茂铁以其独特的立体结构和电子效应,在材料科学和药物化学中都有重要的应用.
【机 构】
:
商丘师范学院化学化工学院,河南商丘476000 山西师范大学化学与材料科学学院,山西临汾04100
【出 处】
:
第十八届全国金属有机化学学术讨论会
【发表日期】
:
2014年5期
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