Title
Band gap tuning of twinned GaAsP ternary nanowires
Document Type
Article
Publication Date
2-27-2014
Abstract
GaAs1-xPx ternary alloy nanowires have drawn much interest because their tunable band gaps, which range from the near-infrared to visible region, are promising for advanced and integrated nanoscale optoelectronic devices. In this study, we synthesized compositionally tuned GaAs1-xPx (0 ≤ x ≤ 1) alloy nanowires with two average diameters of 60 and 120 nm by vapor transport method. The nanowires exhibit exclusively twinned superlattice structures, consisting of zinc blende phase twinned octahedral slice segments between wurtzite phase planes. Smaller diameter and higher P content (x) result in shorter periodic superlattice structures. The band gap of the smaller diameter nanowires is larger than that of the larger diameter nanowires by about 90 meV, suggesting that the twinned superlattice structure increases the band gap. The increase in band gap is ascribed to the higher band gap of the wurtzite phase than that of the zinc blende phase. © 2014 American Chemical Society.
Publication Source (Journal or Book title)
Journal of Physical Chemistry C
First Page
4546
Last Page
4552
Recommended Citation
Im, H., Jung, C., Park, K., Jang, D., Lim, Y., & Park, J. (2014). Band gap tuning of twinned GaAsP ternary nanowires. Journal of Physical Chemistry C, 118 (8), 4546-4552. https://doi.org/10.1021/jp500458j