烷基胺为媒介的铜纳米棒的合成及其生长机制研究

以氯化铜为前躯体,葡糖糖为还原剂,烷基胺(十六胺和十八胺的混合物)为络合剂和表面包覆剂,经过络合反应和溶剂热两步反应首先得到形貌均一、直径约为100 nm的铜纳米颗粒, 随后自发生长为五重孪晶铜纳米棒(仍含有部分颗粒)。实验过程中分别对溶剂热反应1 h、3 h和5 h后的还原产物的形貌特征加以表征,可以推断被还原的铜原子首先均匀成核形成初级铜纳米颗粒,经过奥斯特瓦尔德老化过程生长为五重孪晶的次级铜纳米颗粒,由于孪晶结构具有很高的生长活性,在烷基胺的表面包覆作用下生长为各项异性的铜纳米棒。该方法提供了一种有效的铜纳米棒的制备方法并且降低了一维铜纳米材料的合成成本。     

Dynamics of vibrational chaos and entanglement in triatomic molecules： Lie algebraic model

In this paper, the dynamics of chaos and the entanglement in triatomic molecular vibrations are investigated. On the classical aspect, we study the chaotic trajectories in the phase space. We employ the linear entropy to examine the dynamical entanglement of the two bonds on the quantum aspect. The correspondence between the classical chaos and the quantum dynamical entanglement is also investigated. As an example, we apply our algebraic model to molecule H2O.     

Vibrational chaotic dynamics in triatomic molecules: A comparative study

Within Lie algebraic model, the vibrational chaotic dynamics in triatomic molecules are studied. The molecules of H₂S, NO₂, and O₃ are sampled to explore the dynamical differences between the local and normal mode molecules. The comprehensive effects of the local and normal mode vibrations, resonances and chaos on the dynamical entanglement are studied. The results demonstrate that the resonances as well as chaos can promote the evolution of dynamical entanglement.