2007
DOI: 10.1021/nl072024a
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InAs/InP Radial Nanowire Heterostructures as High Electron Mobility Devices

Abstract: Radial core/shell nanowires (NWs) represent an important class of one-dimensional (1D) systems with substantial potential for exploring fundamental materials electronic and photonic properties. Here, we report the rational design and synthesis of InAs/InP core/shell NW heterostructures with quantum-confined, high-mobility electron carriers. Transmission electron microscopy studies revealed single-crystal InAs cores with epitaxial InP shells 2−3 nm in thickness, and energy-dispersive X-ray spectroscopy analysis… Show more

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Cited by 379 publications
(345 citation statements)
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“…The mobility starts to saturate at lower temperature at which point it becomes limited by scattering events related to the nanowire structure including planar defects. 15 Similar trends have been observed previously in InAs films, 42 InAs nanowires 15 and InAs-InP 43 and InAs-InAlAs 44 core-shell nanowires. Here we consider three different candidate mechanisms that could be causing this marked increase in mobility with antimony content: (i) the different intrinsic electrical properties of InAs 1−x Sb x as a function of Sb content; (ii) the different electrical properties of the WZ and ZB polytypes of InAs 1−x Sb x ; and (iii) the variation of the planar defect density.…”
Section: Electrical Transport In Inas 1−x Sb X Nanowiressupporting
confidence: 85%
“…The mobility starts to saturate at lower temperature at which point it becomes limited by scattering events related to the nanowire structure including planar defects. 15 Similar trends have been observed previously in InAs films, 42 InAs nanowires 15 and InAs-InP 43 and InAs-InAlAs 44 core-shell nanowires. Here we consider three different candidate mechanisms that could be causing this marked increase in mobility with antimony content: (i) the different intrinsic electrical properties of InAs 1−x Sb x as a function of Sb content; (ii) the different electrical properties of the WZ and ZB polytypes of InAs 1−x Sb x ; and (iii) the variation of the planar defect density.…”
Section: Electrical Transport In Inas 1−x Sb X Nanowiressupporting
confidence: 85%
“…10 Nanowire heterostructures can be produced by modulating the composition of a nanowire axially 11 and radially. 12 Radial nanowire heterostructures consist of core and shell ͑or multishell͒ morphologies, which offer flexibility to engineer the band gaps of a radial nanowire heterostructure and thereby, desired properties can be obtained. 13,14 Many potential applications have been demonstrated using these radial nanowire heterostructures including multicolor light-emitting diodes, 14 address decoders, 15 high electron mobility transistors, 16 and nonvolatile crossbar switches.…”
mentioning
confidence: 99%
“…44 Since then, Lieber and others have demonstrated the syntheses of a wide range of NW materials, including heterostructures (Figure 4) [45][46][47] with advanced and well-defined functionalities and properties while controllably assembling them into hierarchical structures ( Figure 5) and configuring them for a wide range of applications. [48][49][50][51][52][53][54][55][56][57][58][59][60][61][62][63][64][65][66] Properties and Applications. While the material properties of carbon nanotubes are primarily governed by their chirality (and thus, their diameter), for NWs, the properties are tuned by both the diameter and the elemental composition, which adds another handle in controlling functionality.…”
Section: Nano Focusmentioning
confidence: 99%
“…However, high-mobility p-type ( h Ϸ 750 cm 2 /(V · s)) and n-type ( n Ϸ 10000 cm 2 /V · s) transistors based on Ge/Si core/shell and InAs NWs have been demonstrated for diameters of 10Ϫ25 nm. 49,50,52 While there is no clear evidence for increased carrier mobilities over their bulk counterparts, the reduced dimensions of NWs result in improved gate coupling and reduced short channel effects, which are critical for achieving high performance in nanoscale devices. Additionally, NW heterostructures can be readily synthesized with controlled dimensions and elemental composition for enhanced transport properties as has been shown in the Ge/Si and InAs/InP core/shell NW structures.…”
Section: Nano Focusmentioning
confidence: 99%
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