AI Article Synopsis

  • Researchers developed a new type of radial nanowire heterostructures using GaAs/(In,Ga)As/GaAs on a silicon substrate, leading to the creation of straight nanowires instead of bent ones, which was a previous issue.
  • The bending in nanowires was previously caused by tensile strain from the (In,Ga)As shell, but this was countered by compressive strain from the GaAs outer shell.
  • The study utilized x-ray diffraction and 2D energy dispersive x-ray spectroscopy to analyze the core diameter, shell thicknesses, indium concentration, and distribution within the quantum well, allowing for better understanding of the nanowire structure.

Article Abstract

We report on the fabrication of a novel design of GaAs/(In,Ga)As/GaAs radial nanowire heterostructures on a Si 111 substrate, where, for the first time, the growth of inhomogeneous shells on a lattice mismatched core results in straight nanowires instead of bent. Nanowire bending caused by axial tensile strain induced by the (In,Ga)As shell on the GaAs core is reversed by axial compressive strain caused by the GaAs outer shell on the (In,Ga)As shell. Progressive nanowire bending and reverse bending in addition to the axial strain evolution during the two processes are accessed byby x-ray diffraction. The diameter of the core, thicknesses of the shells, as well as the indium concentration and distribution within the (In,Ga)As quantum well are revealed by 2D energy dispersive x-ray spectroscopy using a transmission electron microscope. Shell(s) growth on one side of the core without substrate rotation results in planar-like radial heterostructures in the form of free standing straight nanowires.

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Source
http://dx.doi.org/10.1088/1361-6528/ad3fc1DOI Listing

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