Deputy of Enviroment, Tehran, Iran.
J Mol Model. 2013 Nov;19(11):4877-86. doi: 10.1007/s00894-013-1978-6. Epub 2013 Sep 17.
We report a density functional theory study on the electronic structure properties of pristine and phosphorous-doped (6,0) and (4,4) single-walled BC3 nanotubes (BC3NTs). We examine the usefulness of local reactivity descriptors to predict the reactivities of different carbon/boron atomic sites on the external surface of the tubes. Electrostatic potentials VS(r) and average local ionization energies ĪS(r) are computed on the surface of the investigated BC3NTs. A general feature of the systems considered here is that the magnitudes of negative VS(r) associated with carbon atoms tend to be stronger when the boron atom is substituted with a phosphorous atom. In order to verify the surface reactivity pattern based on the chosen reactivity descriptors, we calculated the reaction energies for the interaction of an H(+) ion or H radical with external surface of the (6,0) and (4,4) BC3NTs. It is clear that, for each nanotube studied, the reaction energies correlate well with the values of VS(r) and ĪS(r).
我们报告了一个密度泛函理论研究,关于原始和磷掺杂的(6,0)和(4,4)单壁 BC3 纳米管(BC3NTs)的电子结构性质。我们考察了局部反应性描述符在预测管外表面不同碳/硼原子位置的反应性方面的有用性。在研究的 BC3NTs 表面上计算了静电势 VS(r)和平均局部电离能 ĪS(r)。这里考虑的系统的一个共同特征是,当硼原子被磷原子取代时,与碳原子相关的负 VS(r)的大小往往更强。为了验证基于所选反应性描述符的表面反应模式,我们计算了 H(+)离子或 H 自由基与(6,0)和(4,4)BC3NTs 外表面相互作用的反应能。很明显,对于研究的每个纳米管,反应能与 VS(r)和 ĪS(r)的值很好地相关。
