2007
DOI: 10.1063/1.2790483
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Direct imaging of quantum wires nucleated at diatomic steps

Abstract: Atomic steps at growth surfaces are important heterogeneous sources for nucleation of epitaxial nano-objects. In the presence of misfit strain, we show that the nucleation process takes place preferentially at the upper terrace of the step as a result of the local stress relaxation. Evidence for strain-induced nucleation comes from the direct observation by postgrowth, atomic resolution, Z-contrast imaging of an InAs-rich region in a nanowire located on the upper terrace surface of an interfacial diatomic step… Show more

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Cited by 17 publications
(18 citation statements)
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“…This explanation is supported by the analysis of high-resolution Z-contrast images of nanowires located just on InAs x P 1-x /InP (001) interfacial steps. This analysis shows that InAs-rich regions are situated on the upper terrace of interfacial diatomic steps, in good agreement with AFM observations and strain calculations [20]. In order to produce efficient materials from InAs x P 1-x /InP nanowires, it is important to control their size, shape, composition, distribution and density.…”
Section: Nucleation Of Quantum Wiressupporting
confidence: 57%
See 1 more Smart Citation
“…This explanation is supported by the analysis of high-resolution Z-contrast images of nanowires located just on InAs x P 1-x /InP (001) interfacial steps. This analysis shows that InAs-rich regions are situated on the upper terrace of interfacial diatomic steps, in good agreement with AFM observations and strain calculations [20]. In order to produce efficient materials from InAs x P 1-x /InP nanowires, it is important to control their size, shape, composition, distribution and density.…”
Section: Nucleation Of Quantum Wiressupporting
confidence: 57%
“…The application of these approaches in combination with other analytical methods has allowed us to successfully predict the nucleation sites of stacked quantum wires for different growth conditions [18][19], learning about the nucleation mechanism of these nanostructures [20] and the defect nucleation mechanism in quantum dots [21]. Good correlation has been found in these nano-wires between the strain maps obtained directly from the strain analysis of HRTEM images and the strain calculated by finite element methods using the compositional maps determined by HAADF-STEM and electron energy-loss spectroscopy (EELS) [22].…”
Section: Introductionmentioning
confidence: 99%
“…Atomic force microscopy examination of the nanowires deposited on an InP substrate showed the tendency for the nanowires to be located near step edges. While many of the steps were wavy, some wires nucleated near straight segments of steps, and these gave a clear sharp image in cross-section Z-contrast images, as shown in figure 14 (Molina et al 2007). In this 1 1 0 projection, the cubic zinc-blende structure projects as dumbbells with the In column towards the left of the figure and the P or As x P 1−x column towards the right.…”
Section: Semiconductor Quantum Wiresmentioning
confidence: 97%
“…(b) Higher magnification view showing the atomically abrupt transition from the InP to the InAs x P 1−x nanowire, with an interface step present under the nanowire. Reproduced from Molina et al (2007).…”
Section: Nm Inp (001)mentioning
confidence: 99%
“…Similarly, direct HAADF STEM imaging of self-assembled InAs/InP QWRs, combined with AFM and finite element elasticity calculations were used by Molina et al (2007a) to investigate the role of monolayer steps at the surface of the substrate on the nucleation of QWRs. Preferential nucleation of self-assembled QDs at monolayer terrace edges of the substrate had previously been observed (Leonard et al, 1994b;Xu et al, 2005).…”
Section: High-resolution Stem Imaging Of Qwrs and Qdsmentioning
confidence: 99%