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巨型富勒烯蒸发的实时显微镜观察、动力学及机制

Real time microscopy, kinetics, and mechanism of giant fullerene evaporation.

作者信息

Huang J Y, Ding Feng, Jiao Kun, Yakobson Boris I

机构信息

Center for Integrated Nanotechnologies (CINT), Sandia National Laboratories, Albuquerque, New Mexico 87185, USA.

出版信息

Phys Rev Lett. 2007 Oct 26;99(17):175503. doi: 10.1103/PhysRevLett.99.175503.

Abstract

We report in situ high-resolution transmission electron microscopy observing the shrinkage of single-layer giant fullerenes (GF). At temperatures approximately 2000 degrees C, the GF volume reduces by greater than one 100-fold while the fullerene shell remains intact, evolving from a slightly polygonized to a nearly spherical shape with a smaller diameter. The number of carbon atoms in the GF decreases linearly with time until the small subbuckyball cage opens and rapidly disappears. Theoretical modeling indicates that carbon atoms are removed predominantly from the weakest binding energy sites, i.e., the pentagons, leading to the constant evaporation rate. The fullerene cage integrity is attributed to the collective behavior of interacting defects. These results constitute the first experimental evidence for the "shrink-wrapping" and "hot-giant" fullerene formation mechanisms.

摘要

我们报告了利用原位高分辨率透射电子显微镜观察单层巨型富勒烯(GF)的收缩情况。在大约2000摄氏度的温度下,GF的体积缩小超过100倍,而富勒烯壳层保持完整,从略微多边形化演变成直径较小的近似球形。GF中的碳原子数量随时间线性减少,直到小的巴基球笼打开并迅速消失。理论模型表明,碳原子主要从结合能最弱的部位即五边形处被移除,从而导致恒定的蒸发速率。富勒烯笼的完整性归因于相互作用缺陷的集体行为。这些结果构成了“收缩包裹”和“热巨型”富勒烯形成机制的首个实验证据。

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