Ueno Leonardo T, Kiohara Valéria O, Ferrão Luiz F A, Pelegrini Marina, Roberto-Neto Orlando, Machado Francisco B C
Faculdade de Ciências Integradas do Pontal, Universidade Federal de Uberlândia, Ituiutaba, 38304-402, Minas Gerais, Brazil.
J Mol Model. 2015 Jun;21(6):141. doi: 10.1007/s00894-015-2685-2. Epub 2015 May 13.
Chemically speaking, atomic clusters are very rich, allowing their application in a broad range of technological areas such as developing functional materials, heterogeneous catalysis, and building optical devices. In this work, high level computational chemistry methods were used in a systematic manner to improve the characterization of small clusters formed by boron, silicon, germanium, mixed boron/silicon, and mixed boron/germanium. Calculations were carried out with both ab initio [MP2 and CCSD(T)] and density functional (B3LYP) methods with extended basis sets. The CCSD(T) results were then extrapolated to the complete basis set (CBS) limit. Finally, geometrical parameters, vibrational frequencies, and relative energies were then obtained and compared to data presented in the literature. Graphical Abstract Small boron, silicon and germanium clusters: BmSin and BmGen (m + n = 2-4).
从化学角度来讲,原子团簇种类极为丰富,这使得它们能够应用于广泛的技术领域,如开发功能材料、多相催化以及制造光学器件。在本研究中,我们系统地运用了高级计算化学方法,以改进对由硼、硅、锗、硼/硅混合以及硼/锗混合形成的小团簇的表征。我们采用了从头算方法(MP2和CCSD(T))以及密度泛函方法(B3LYP),并结合扩展基组进行计算。然后将CCSD(T)结果外推至完全基组(CBS)极限。最后,获得了几何参数、振动频率和相对能量,并与文献中给出的数据进行了比较。图形摘要 小硼、硅和锗团簇:BmSin和BmGen(m + n = 2 - 4)
