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定向调控汽液固生长实现 GaAs 纳米线结的自组装。

Tailoring the vapor-liquid-solid growth toward the self-assembly of GaAs nanowire junctions.

机构信息

Division of Physics and Applied Physics, 21 Nanyang Link, Nanyang Technological University, Singapore.

出版信息

Nano Lett. 2011 Nov 9;11(11):4947-52. doi: 10.1021/nl202888e. Epub 2011 Oct 10.

Abstract

New insights into understanding and controlling the intriguing phenomena of spontaneous merging (kissing) and the self-assembly of monolithic Y- and T-junctions is demonstrated in the metal-organic chemical vapor deposition growth of GaAs nanowires. High-resolution transmission electron microscopy for determining polar facets was coupled to electrostatic-mechanical modeling and position-controlled synthesis to identify nanowire diameter, length, and pitch, leading to junction formation. When nanowire patterns are designed so that the electrostatic energy resulting from the interaction of polar surfaces exceeds the mechanical energy required to bend the nanowires to the point of contact, their fusion can lead to the self-assembly of monolithic junctions. Understanding and controlling this phenomenon is a great asset for the realization of dense arrays of vertical nanowire devices and opens up new ways toward the large scale integration of nanowire quantum junctions or nanowire intracellular probes.

摘要

在砷化镓纳米线的金属有机化学气相沉积生长中,展示了对自发融合(亲吻)和整体 Y 型和 T 型结自组装现象的深入理解和控制。用于确定极性面的高分辨率透射电子显微镜与静电机械建模和位置控制合成相结合,以确定纳米线的直径、长度和间距,从而导致结的形成。当纳米线图案的设计使得由极性表面相互作用产生的静电能超过使纳米线弯曲到接触点所需的机械能时,它们的融合可以导致整体结的自组装。理解和控制这一现象对于实现垂直纳米线器件的密集阵列非常有价值,并为大规模集成纳米线量子结或纳米线细胞内探针开辟了新途径。

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