Komatsu Koichi, Murata Michihisa, Murata Yasujiro
Institute for Chemical Research, Kyoto University, Uji, Kyoto 611-0011, Japan.
Science. 2005 Jan 14;307(5707):238-40. doi: 10.1126/science.1106185.
In spite of their importance in fundamental and applied studies, the preparation of endohedral fullerenes has relied on difficult-to-control physical methods. We report a four-step organic reaction that completely closes a 13-membered ring orifice of an open-cage fullerene. This process can be used to synthesize a fullerene C60 encapsulating molecular hydrogen, which can be isolated as a pure product. This molecular surgical method should make possible the preparation of a series of C60 fullerenes, encapsulating either small atoms or molecules, that are not accessible by conventional physical methods.
尽管内包富勒烯在基础研究和应用研究中具有重要意义,但其制备一直依赖于难以控制的物理方法。我们报道了一种四步有机反应,该反应能完全封闭开孔富勒烯的13元环孔口。此过程可用于合成包封分子氢的富勒烯C60,且该产物可作为纯产品分离出来。这种分子手术方法应该能够制备出一系列包封小原子或分子的C60富勒烯,而这些是传统物理方法无法获得的。