Abstract
Controlled doping in semiconductor nanowires modifies their electrical and optical properties, which are important for high efficiency optoelectronic devices. We have grown n-type (Sn) doped GaAs nanowires in Aerotaxy, a new continuous gas phase mass production technique. The morphology of Sn doped nanowires is found to be a strong function of dopant, tetraethyltin to trimethylgallium flow ratio, Au–Ga–Sn alloying, and nanowire growth temperatures. High temperature and high flow ratios result in low morphological quality nanowires and in parasitic growth on the wire base and surface. Alloying and growth temperatures of 400 °C and 530 °C, respectively, resulted in good morphological quality nanowires for a flow ratio of TESn to TMGa up to 2.25 × 10−3. The wires are pure zinc-blende for all investigated growth conditions, whereas nanowires grown by metal-organic vapor phase epitaxy with the same growth conditions are usually mainly Wurtzite. The growth rate of the doped wires is found to be dependent more on the TESn flow fraction than on alloying and nanowire growth temperatures. Our photoluminescence measurements, supported by four-point probe resistivity measurements, reveal that the carrier concentration in the doped wires varies only slightly (1–3) × 1019 cm−3 with TESn flow fraction and both alloying and growth temperatures, indicating that good morphological quality wires with high carrier density can be grown with low TESn flow. Carrier concentrations lower than 1019 cm−3 can be grown by further reducing the flow fraction of TESn, which may give better morphology wires.
Highlights
We demonstrate successful n-type doping of GaAs nanowires by using The addition of Sn (TESn) as a dopant source and systematically investigate the effect of growth parameters on the morphology of the wires
In this study we have investigated the dependence of the incorporation of active Sn dopant and nanowire morphology on the input TESn flux as well as on the Ga–Au–Sn alloying and nanowire growth temperatures
By using x-ray energy dispersive spectroscopy (XEDS) in transmission electron microscopy (TEM), we studied the composition of the seed NP for different growth conditions
Summary
We demonstrate successful n-type doping of GaAs nanowires by using TESn as a dopant source and systematically investigate the effect of growth parameters on the morphology of the wires. The alloying and growth temperatures, as well as the partial pressure ratio of TESn/TMGa were varied to study the effect of these growth parameters on the resulting GaAs:Sn nanowires in terms of energy bandgap, morphological, Figure 1.
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