Application of Electronic Counting Rules for Ligand-Protected Gold Nanoclusters

纳米团簇 超原子 价电子 电子计数 价(化学) 化学 配体(生物化学) 纳米技术 四面体 化学物理 电子 电子结构 结晶学 材料科学 物理 计算化学 量子力学 生物化学 有机化学 受体
作者
Wen Wu Xu,Xiao Cheng Zeng,Yi Gao
出处
期刊:Accounts of Chemical Research [American Chemical Society]
卷期号:51 (11): 2739-2747 被引量:140
标识
DOI:10.1021/acs.accounts.8b00324
摘要

Understanding special stability of numerous ligand-protected gold nanoclusters has always been an active area of research. In the past few decades, several theoretical models, including the polyhedral skeletal electron pair theory (PSEPT), superatom complex (SAC), and superatom network (SAN), among others, have been developed for better understanding the stabilities and structures of selected ligand-protected gold nanoclusters. This Account overviews the recently proposed grand unified model (GUM) to offer some new insights into the structures and growth mechanism of nearly all crystallized and predicted ligand-protected gold nanoclusters. The main conceptual advancement of the GUM is identification of the duet and octet rules on the basis of the "big data" of 70+ reported ligand-protected gold nanoclusters. According to the two empirical rules, the cores of the gold nanoclusters can be regarded as being composed of two kinds of elementary blocks (namely, triangle Au3 and tetrahedron Au4), each having 2 e closed-shell valence electrons (referred as Au3(2 e) and Au4(2 e)), as well as the secondary block (icosahedron Au13) with 8 e closed-shell valence electrons (referred as Au13(8 e)). The two elementary blocks (Au3(2 e) and Au4(2 e)) and the secondary block (Au13(8 e)), from electron counting point of view, can be regarded as an analogy of the highly stable noble-gas atoms of He and Ne, respectively. In each elementary block, the Au atoms exhibit three different valence-electron states (i.e., 1 e, 0.5 e, and 0 e), depending on the type of ligands bonded with these Au atoms. Such three valence-electron states are coined as three "flavors" of gold (namely, bottom, middle, and top "flavor"), a term borrowed from the quark model in the particle physics. Upon application of the duet and octet rules with accounting the three valence states of gold atoms, the Au3(2 e), Au4(2 e), and Au13(8 e) blocks can exhibit 10 (denoted as Δ110), 15 (denoted as T1-T15), and 91 (denoted as I1-I91) variants of valence states, respectively. When packing these blocks (with distinct electronic states) together, it forms the gold core of ligand-protected gold nanocluster. As such, the special stabilities of the ligand-protected gold nanoclusters are explained based on the local stability of each block. With GUM, rich and complex structures of ligand-protected gold nanoclusters have been analyzed through structure anatomy. Moreover, the growth of these clusters can be simply viewed as sequential addition of the blocks, rather than as addition of the gold atoms. Another useful application of the GUM is to analyze the structural isomerism. The three types of isomerism for the gold nanoclusters, i.e., core, staple, and complex isomerism, can be considered as an analogy of chain, point, and functional isomerism (known in organic chemistry), respectively. GUM can be applied to predict new clusters, thereby guiding experimental synthesis. Indeed, a number of ligand-protected gold nanoclusters with high stabilities were rationally designed based on the GUM.

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