Atom probe tomography of nanoscale architectures in functional materials for electronic and photonic applications

[Display omitted] •Advances in atom probe tomography enable analysis of new semiconductor nanostructures.•Nanostructures can be classified in terms of closed and open interfaces.•Understanding artifacts that arise at interfaces is necessary for reliable analysis.•Atom probe reconstructions help esta...

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Bibliographic Details
Published in:Current opinion in solid state & materials science 2018-10, Vol.22 (5), p.171-187
Main Authors: Chang, Alexander S., Lauhon, Lincoln J.
Format: Article
Language:English
Subjects:
Atom probe tomography
Heterostructures
Nanomaterials
Nanowires
Quantum dots
Semiconductors
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Summary:[Display omitted] •Advances in atom probe tomography enable analysis of new semiconductor nanostructures.•Nanostructures can be classified in terms of closed and open interfaces.•Understanding artifacts that arise at interfaces is necessary for reliable analysis.•Atom probe reconstructions help establish processing-structure-property relationships. Microscopy has played a central role in the advancement of nanoscience and nanotechnology by enabling the direct visualization of nanoscale structure, leading to predictive models of novel physical behaviors. Electronic and photonic device technologies, whose features and performance are often improved through miniaturization, have particularly benefited from new capabilities in the characterization of material structure and composition. This paper reviews recent applications of atom probe tomography to semiconducting materials with nanoscale architectures that are designed to impart novel properties and device functionality by virtue of their shape and size. A review is necessary because rapid advances in atom probe instrumentation and analysis in the last decade have greatly expanded the utility of atom probe tomography to address scientific questions and technical questions in this area. The paper is organized in terms of the surface topologies of nanoscale architectures. We begin with nominally planar interfaces including thin film heterostructures and superlattices with open surfaces. Distinctive capabilities in the analysis of interfaces are introduced, as are challenges arising from measurement artifacts. We then discuss nanowires and nanowire heterostructures with surfaces that are closed along one dimension, for which atom probe tomography has provided unique and important understandings on the doping processes. Finally, we consider nanocrystals and quantum dots with completely closed surfaces. Along the way, current challenges and opportunities for atom probe tomography are highlighted, and the reader is directed to complementary reviews of more technical aspects of atom probe analysis.
ISSN:1359-0286
DOI:10.1016/j.cossms.2018.09.002