Chirality in bare and ligand-protected metal nanoclusters

纳米团簇 纳米尺度 纳米技术 圆二色性 化学物理 手性(物理) 金属 纳米材料 金团 化学 材料科学 物理 计算化学 结晶学 电子结构 量子力学 对称性破坏 手征对称破缺 冶金 Nambu–Jona Lasinio模型
作者
J. Jesús Pelayo,Israel Valencia,A. Patricio García,Le Chang,Marta L. Vidal,Daniele Toffoli,Mauro Stener,Alessandro Fortunelli,Ignacio L. Garzón
出处
期刊:Advances in physics: X [Taylor & Francis]
卷期号:3 (1): 1509727-1509727 被引量:30
标识
DOI:10.1080/23746149.2018.1509727
摘要

Chirality is a fundamental property of matter with profound impact in physics, chemistry, biology, and medicine. It is present at several scales going from elementary particles, to molecules, to macroscopic materials, and even to astronomical objects. During the last 30 years, chirality has also been investigated at the nanoscale, being a hot research topic in nanoscience. The importance of chirality at the nanoscale is due, in part, to the potential applications that chiral nanomaterials could have in nanotechnology. Great interest exists nowadays in the study of chirality in bare and ligand-protected metal nanoclusters. These are aggregates of n metal atoms (n ~ 10–300) that can be in gas phase or stabilized by organic ligands, covering the cluster surface. Chirality in bare and thiolate-protected gold clusters (TPGC) has received special attention because of the important progress achieved in their synthesis, size separation, and precise structural characterization. Here, we review the recent experimental and theoretical developments on the origin and physicochemical manifestations of chirality in bare and TPGC . Since chirality is a geometrical property, we also discuss the proposal for its quantification, and the correlation of this geometric measure with the chiroptical response, like the circular dichroism spectrum, calculated from quantum mechanical methods.

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