富勒烯作为纳米胶囊形成的前体

G. E. Gadd, M. Collela, M. Blackford, A. Dixon, P. Evans, D. Mcculloch, S. Bulcock, D. Cockayne
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摘要

我们已经证明,当Ni金属颗粒在C60存在下熔化时,在其周围形成石墨层,而Ni仍然是纯金属,没有任何碳化物形成的证据。我们已经成功地封装了几个数量级大小的颗粒,从~ 10纳米到几个微米。利用透射电子显微镜(TEM)实时观察到该过程的发生。用石墨粉代替C60粉,用电子束加热镍至熔点时,没有观察到这一过程。将Ni和C60粉末的混合物以常规方式加热在一起也会产生封装的Ni颗粒。这表明,尽管电子束确实提供了控制单个粒子过程的能力,但封装方法本质上是热的。进一步的研究表明,通过催化途径,封装过程也可以在低至800°C的温度下进行。我们已经扩展了在富勒烯存在下加热金属的工作,并有效地封装了其他金属,如Fe, Co, Ho, Cu和Au。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fullerenes as precursors for nanocapsule formation
Abstract We have shown that Ni metal particles when melted in the presence of C60 form graphitic layers around themselves with the Ni remaining as pure metal and without any evidence of carbide formation. We have successfully encapsulated particles over several orders of magnitude of size from ∼10 nm to several microns. The process has been observed taking place in real time using transmission electron microscopy (TEM). The process was not observed when graphite powder was used instead of C60 powder and the Ni similarly heated to melting point, using the electron beam. Heating a mixture of Ni and C60 powders together in a conventional manner also produced encapsulated Ni particles. This suggests that the encapsulation method is thermal in nature although the electron beam does offer the ability to control the process for individual particles. Further research has shown that the encapsulation process can also occur at temperatures as low as 800° C by a catalytic route. We have extended the work of heating a metal in the presence of fullerenes and have effectively encapsulated other metals such as Fe, Co, Ho, Cu and Au.
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