WmCn(m+n≤7)团簇的几何结构与稳定性

利用密度泛函理论(DFT)中的杂化密度泛函B3LYP方法在LANL2DZ基组水平上对W_mC_n(m+n≤7)团簇进行几何构型全优化,得出它们的基态结构,并计算基态结构的平均结合能、二阶能量差分、能隙及键级.结果表明:随着W原子个数的增加,团簇的结构由线性转变为平面,再转变为立体结构,其中自旋多重度未超过5;C原子的掺杂增强团簇的稳定性;分析团簇Wiberg键级可知,团簇中W-C键级明显大于W-W和C-C键级,表明W_mC_n(m+n≤7)团簇最容易形成W-C键.     

Structure and magnetic properties of Osn （n=11～22） clusters

The structure and magnetic properties of Osn （n=11～22） clusters are systematically studied by using density functional theory （DFT）. For each size, the average binding energy per atom, the second-order differences of total energies and the highest occupied molecular orbital （HOMO）–the lowest unoccupied molecular orbital （LUMO） gaps are calculated to analyze the stability of the cluster. The structures of Os14 and Os18 clusters are based on a close-packed hexagonal structure, and they have maximum stabilities, so n=14, 18 are the magic numbers. The 5d electrons play a dominant role in the chemical reaction of Osn clusters. The magnetic moments of Osn clusters are quenched around n=12, and when n=18～22 the value approximates to zero, due to the difference of electron transfer.