College of Physical Sciences, Graduate University of Chinese Academy of Sciences, P. O. Box 4588, Beijing 100049, China.
Phys Chem Chem Phys. 2009 Nov 14;11(42):9696-702. doi: 10.1039/b911519f. Epub 2009 Aug 26.
Based on ab initio calculations, we have studied the geometrical, electronic properties and chemical bonding of boron fullerenes B(32+8k) (0 < or = k < or = 7) with four-membered rings and B(32) solid phases. The relative energies and the energy gaps between the highest occupied molecular orbital (HOMO) and the lowest unoccupied molecular orbital (LUMO) have been calculated, showing that the stabilities grow with the increase of fullerene size, where the smallest cage B(32) bears the largest HOMO-LUMO gap. The frontier orbitals of B(32+8k) show some similarities with those of the corresponding carbon fullerenes C(24+6k), implying that they may have similar chemical properties. It is found that B(32) cages can condense to form solid phases of simple cubic (sc), face-centered cubic (fcc), body-centered cubic (bcc), and body-centered tetragonal (bct) structures, where the bct phase is observed to be the most stable. Electronic structure calculations reveal that the sc, fcc and bcc phases of B(32) solids are metallic, but the bct phase is a semimetal.
基于从头算方法,我们研究了具有四个五元环的硼富勒烯 B(32+8k) (0 <= k <= 7) 和 B(32) 固体相的几何形状、电子性质和化学成键。计算了相对能量和最高占据分子轨道 (HOMO) 和最低未占据分子轨道 (LUMO) 之间的能隙,结果表明随着富勒烯尺寸的增加稳定性增加,其中最小的笼 B(32) 具有最大的 HOMO-LUMO 能隙。B(32+8k) 的前沿轨道与相应的碳富勒烯 C(24+6k) 的轨道具有一定的相似性,这表明它们可能具有相似的化学性质。研究发现,B(32)笼可以凝聚形成简单立方 (sc)、面心立方 (fcc)、体心立方 (bcc) 和体心四方 (bct) 结构的固体相,其中 bct 相是最稳定的。电子结构计算表明,B(32)固体的 sc、fcc 和 bcc 相是金属相,但 bct 相是半导体相。
