Rogan José, García Griselda, Loyola Claudia, Orellana W, Ramírez Ricardo, Kiwi Miguel
Departamento de Física, Facultad de Ciencias, Universidad de Chile, Casilla 653, Santiago 1, Chile.
J Chem Phys. 2006 Dec 7;125(21):214708. doi: 10.1063/1.2402168.
An alternative strategy to find the minimal energy structure of nanoclusters is presented and implemented. We use it to determine the structure of metallic clusters. It consists in an unbiased search, with a global minimum algorithm: conformational space annealing. First, we find the minima of a many-body phenomenological potential to create a data bank of putative minima. This procedure assures us the generation of a set of cluster configurations of large diversity. Next, the clusters in this data bank are relaxed by ab initio techniques to obtain their energies and geometrical structures. The scheme is successfully applied to magic number 13 atom clusters of rhodium, palladium, and silver. We obtained minimal energy cluster structures not previously reported, which are different from the phenomenological minima. Moreover, they are not always highly symmetric, thus casting some doubt on the customary biased search scheme, which consists in relaxing with density functional theory global minima chosen among high symmetry structures obtained by means of phenomenological potentials.
提出并实施了一种寻找纳米团簇最小能量结构的替代策略。我们用它来确定金属团簇的结构。它包括一种无偏搜索,采用全局最小化算法:构象空间退火。首先,我们找到多体唯象势的最小值以创建一个假定最小值的数据库。这个过程确保我们生成一组具有高度多样性的团簇构型。接下来,通过从头算技术对这个数据库中的团簇进行弛豫,以获得它们的能量和几何结构。该方案成功应用于铑、钯和银的幻数13原子团簇。我们获得了先前未报道的最小能量团簇结构,这些结构与唯象最小值不同。此外,它们并不总是高度对称的,这对传统的有偏搜索方案提出了一些质疑,传统方案是用密度泛函理论对通过唯象势得到的高对称结构中选择的全局最小值进行弛豫。