Modelling the formation of high aspect CdSe quantum wires: axial-growth versus oriented-attachment mechanisms

A S Barnard; H Xu; X Li

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Modelling the formation of high aspect CdSe quantum wires: axial-growth versus oriented-attachment mechanisms

机译：模拟高纵横比CdSe量子线的形成：轴向生长与定向附着机制

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Following the recent low temperature synthesis of high quality and single crystal CdSe quantum nanowires, we have used a thermodynamic model to investigate the plausibility of axial-growth and oriented-attachment formation mechanisms. Using surface energies for clean and alkylamine-passivated CdSe surfaces reported elsewhere by Manna et al (2005 J. Phys. Chem. B 109 6183), we have compared equilibrium and metastable shapes of CdSe nanowires as a function of aspect ratio and axial orientation for different degrees of surface passivation. In general, the theoretical results support the oriented-attachment of low aspect quantum dots or nanorods, followed by coalescence to form high aspect (0001) quantum wires.

机译：继最近低温合成高质量和单晶CdSe量子纳米线之后，我们已经使用热力学模型研究了轴向生长和定向附着形成机制的合理性。使用Manna等人（2005 J. Phys。Chem。B 109 6183）其他地方报告的清洁的和经烷基胺钝化的CdSe表面的表面能，我们比较了CdSe纳米线的平衡形状和亚稳态形状与长径比和轴向取向的关系。不同程度的表面钝化。通常，理论结果支持低纵横量子点或纳米棒的定向附着，然后聚结形成高纵横（0001）量子线。

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《Nanotechnology》 |2006年第22期|共8页
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A S Barnard; H Xu; X Li;
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1. Modelling the formation of high aspect CdSe quantum wires: axial-growth versus oriented-attachment mechanisms [J] . A S Barnard, H Xu, X Li Nanotechnology . 2006,第22期

机译：模拟高纵横比CdSe量子线的形成：轴向生长与定向附着机制
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Modelling the formation of high aspect CdSe quantum wires: axial-growth versus oriented-attachment mechanisms

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