Li Lin, Larsen Ask H, Romero Nichols A, Morozov Vitali A, Glinsvad Christian, Abild-Pedersen Frank, Greeley Jeff, Jacobsen Karsten W, Nørskov Jens K
†Department of Chemical Engineering, Stanford University, Stanford, California 94305, United States.
‡Center for Atomic-scale Materials Design (CAMD), Department of Physics, Building 307, Technical University of Denmark, DK-2800 Kgs. Lyngby, Denmark.
J Phys Chem Lett. 2013 Jan 3;4(1):222-6. doi: 10.1021/jz3018286. Epub 2012 Dec 26.
In this paper, we use density functional theory (DFT) calculations on highly parallel computing resources to study size-dependent changes in the chemical and electronic properties of platinum (Pt) for a number of fixed freestanding clusters ranging from 13 to 1415 atoms, or 0.7-3.5 nm in diameter. We find that the surface catalytic properties of the clusters converge to the single crystal limit for clusters with as few as 147 atoms (1.6 nm). Recently published results for gold (Au) clusters showed analogous convergence with size. However, this convergence happened at larger sizes, because the Au d-states do not contribute to the density of states around the Fermi-level, and the observed level fluctuations were not significantly damped until the cluster reached ca. 560 atoms (2.7 nm) in size.
在本文中,我们利用高度并行计算资源上的密度泛函理论(DFT)计算,研究了一系列直径在0.7 - 3.5纳米、包含13至1415个原子的固定独立团簇中铂(Pt)的化学和电子性质随尺寸的变化。我们发现,对于仅有147个原子(1.6纳米)的团簇,其表面催化性质已收敛至单晶极限。最近发表的关于金(Au)团簇的结果显示出类似的尺寸收敛情况。然而,这种收敛发生在更大尺寸时,因为Au的d态对费米能级附近的态密度没有贡献,并且直到团簇尺寸达到约560个原子(2.7纳米)时,观察到的能级波动才得到显著抑制。
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