Department of Chemistry, Kansas State University, Manhattan, Kansas 66506, USA.
J Phys Chem A. 2011 Feb 10;115(5):868-79. doi: 10.1021/jp109412u. Epub 2011 Jan 4.
Structures, energetics, and vibrational spectra are investigated for small pure (TiO(2))(n), (SiO(2))(n), and mixed Ti(m)Si(n-m)O(2n) [n = 2-5, m = 1 to (n - 1)] oxide clusters by density functional theory (DFT). The BP86/ATZP level of theory is employed to obtain constitutional isomers of the oxide clusters. In accordance with previous studies, our calculations show three-dimensional compact structures are preferred for pure (TiO(2))(n) with oxo-stabilized higher hexavalent states, and linear chain structures are favored for pure (SiO(2))(n) with tetravalent states. However, the herein theoretically first reported mixed Ti(m)Si(n-m)O(2n) oxide clusters prefer either three-dimensional compact or linear chain structures depending upon the stoichiometry of the compound. Vibrational analysis of the important modes of some highly stable structures is provided. Coupled-cluster single and double excitation (with triples) [CCSD(T)] computed energy gaps for the TiO(2) dimers compare well with results from previous study. Excitation energies are computed by use of time-dependent (TD) DFT and equation-of-motion coupled-cluster calculations with singles and doubles (EOM-CCSD) for the most stable isomers.
采用密度泛函理论(DFT)研究了小尺寸纯(TiO2)(n)、(SiO2)(n)和混合 Ti(m)Si(n-m)O2n [n = 2-5,m = 1 至(n-1)]氧化物团簇的结构、能量和振动光谱。采用 BP86/ATZP 理论水平获得氧化物团簇的本征异构体。根据先前的研究,我们的计算表明,具有氧稳定的高六价态的纯(TiO2)(n)优先采用三维紧凑结构,而具有四价态的纯(SiO2)(n)优先采用线性链结构。然而,本文首次报道的混合 Ti(m)Si(n-m)O2n 氧化物团簇根据化合物的化学计量比,优先采用三维紧凑结构或线性链结构。提供了一些高度稳定结构的重要模式的振动分析。TiO2 二聚体的耦合簇单和双激发(含三重态)[CCSD(T)]计算能量间隙与先前研究的结果非常吻合。利用含时(TD)DFT 和单重态和双重态的电子运动耦合簇计算(EOM-CCSD)计算最稳定异构体的激发能。
