二维蜂窝超晶格中纳米晶体的远程定位和原子附着。

Long-range orientation and atomic attachment of nanocrystals in 2D honeycomb superlattices.

机构信息

Debye Institute for Nanomaterials Science, University of Utrecht, Post Office Box 80.000, 3508 TA Utrecht, Netherlands.

Opto-electronic Materials Section, Delft University of Technology, Julianalaan 136, 2628 BL Delft, Netherlands. Kavli Institute of Nanoscience, Delft University of Technology, Post Office Box 5046, 2600 GA Delft, Netherlands.

出版信息

Science. 2014 Jun 20;344(6190):1377-80. doi: 10.1126/science.1252642. Epub 2014 May 29.

DOI:10.1126/science.1252642

PMID:24948734

Abstract

Oriented attachment of synthetic semiconductor nanocrystals is emerging as a route for obtaining new semiconductors that can have Dirac-type electronic bands such as graphene, but also strong spin-orbit coupling. The two-dimensional (2D) assembly geometry will require both atomic coherence and long-range periodicity of the superlattices. We show how the interfacial self-assembly and oriented attachment of nanocrystals results in 2D metal chalcogenide semiconductors with a honeycomb superlattice. We present an extensive atomic and nanoscale characterization of these systems using direct imaging and wave scattering methods. The honeycomb superlattices are atomically coherent and have an octahedral symmetry that is buckled; the nanocrystals occupy two parallel planes. Considerable necking and large-scale atomic motion occurred during the attachment process.

摘要

合成半导体纳米晶体的取向附生作为一种获得新型半导体的途径正在兴起，这些半导体可以具有类似石墨烯的狄拉克型能带，也可以具有强的自旋轨道耦合。二维（2D）组装几何形状将需要超晶格的原子相干性和长程周期性。我们展示了纳米晶体的界面自组装和取向附生如何导致具有蜂窝状超晶格的二维金属硫属半导体。我们使用直接成像和波散射方法对这些系统进行了广泛的原子和纳米尺度的表征。蜂窝状超晶格具有原子相干性和八面体对称性的扭曲；纳米晶体占据两个平行的平面。在附生过程中发生了相当大的颈缩和大规模的原子运动。

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二维蜂窝超晶格中纳米晶体的远程定位和原子附着。

Long-range orientation and atomic attachment of nanocrystals in 2D honeycomb superlattices.

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