Zhou Zhen, Zhao Jijun, Schleyer Paul von Ragué, Chen Zhongfang
Institute of New Energy Material Chemistry, Institute of Scientific Computing, Nankai University, Tianjin 300071, People's Republic of China.
J Comput Chem. 2008 Apr 15;29(5):781-7. doi: 10.1002/jcc.20838.
The structures and electronic properties of nanoscale "peapods," i.e., C(50) fullerenes inside single-walled carbon nanotubes (SWCNTs), were computationally investigated by density functional theory (DFT). Both zigzag and armchair SWCNTs with diameters larger than 1.17 nm can encapsulate C(50) fullerenes exothermically. Among the SWCNTs considered, (9,9) and (16,0) SWCNTs are the best sheaths for both D(3) and D(5h) isomers of C(50), corresponding to 0.32-0.34 nm tube-C50 distances. The orientation of C(50) inside nanotubes also affects the insertion energies, which depend on the actual tube-fullerene distances. The insertion of D(3) and D(5h) isomers of C(50) is somewhat selective; the less stable D(5h) isomer can be encapsulated more favorably inside SWCNTs at same tube-C(50) spacing. Because of the weak tube-C(50) interaction, the geometric and electronic structures of the peapods do not change greatly for the most stable configurations, but the selectivity in the interwall spacing and isomer encapsulation can be useful in separating various carbon fullerenes and their isomers.
通过密度泛函理论(DFT)对纳米级“豆荚”结构,即单壁碳纳米管(SWCNT)内的C(50)富勒烯的结构和电子性质进行了计算研究。直径大于1.17 nm的锯齿形和扶手椅形单壁碳纳米管都能以放热方式包裹C(50)富勒烯。在所考虑的单壁碳纳米管中,(9,9)和(16,0)单壁碳纳米管是C(50)的D(3)和D(5h)异构体的最佳护套,对应的管 - C50距离为0.32 - 0.34 nm。C(50)在纳米管内的取向也会影响插入能,插入能取决于实际的管 - 富勒烯距离。C(50)的D(3)和D(5h)异构体的插入具有一定的选择性;在相同的管 - C(50)间距下,稳定性较差的D(5h)异构体在单壁碳纳米管内的包裹更为有利。由于管 - C(50)相互作用较弱,对于最稳定的构型,豆荚的几何结构和电子结构变化不大,但壁间距和异构体包裹的选择性可用于分离各种碳富勒烯及其异构体。
