摘要
Zr-based amorphous alloys have attracted extensive attention because of their large glassy formation ability, wide supercooled liquid region, high elasticity, and unique mechanical strength induced by their icosahedral local structures.To determine the microstructures of Zr–Cu clusters, the stable and metastable geometry of Zr_(n)Cu(n=2–12) clusters are screened out via the CALYPSO method using machine-learning potentials, and then the electronic structures are investigated using density functional theory. The results show that the Zr_(n)Cu(n ≥ 3) clusters possess three-dimensional geometries, Zr_(n)Cu(n≥9) possess cage-like geometries, and the Zr_(12)Cu cluster has icosahedral geometry. The binding energy per atom gradually gets enlarged with the increase in the size of the clusters, and Zr_(n)Cu(n=5,7,9,12) have relatively better stability than their neighbors. The magnetic moment of most Zr_(n)Cu clusters is just 1μB, and the main components of the highest occupied molecular orbitals(HOMOs) in the Zr_(12)Cu cluster come from the Zr-d state. There are hardly any localized two-center bonds, and there are about 20 σ-type delocalized three-center bonds.
作者
王一志
崔秀花
刘静
井群
段海明
曹海宾
Yizhi Wang;Xiuhua Cui;Jing Liu;Qun Jing;Haiming Duan;Haibin Cao(Xinjiang Key Laboratory of Solid State Physics and Devices,Xinjiang University,Urumqi 830017,China;School of Physical Science and Technology,Xinjiang University,Urumqi 830017,China;Department of Physics,College of Sciences,Shihezi University,Shihezi 832000,China)
基金
Project supported by the National Natural Science Foundation of China (Grant Nos.11864040,11964037,and 11664038)。
