Time-resolved photoluminescence characterization of GaAs nanowire arrays on native substrate

Vilgaile Dagyte, Enrique Barrigón, Wei Zhang, Xulu Zeng, Magnus Heurlin, Gaute Otnes, Nicklas Anttu, Magnus T. Borgström

Research output: Contribution to journalArticleScientificpeer-review

7 Citations (Scopus)


Time-resolved photoluminescence (TRPL) measurements of nanowires (NWs) are often carried out on broken-off NWs in order to avoid the ensemble effects as well as substrate contribution. However, the development of NW-array solar cells could benefit from non-destructive optical characterization to allow faster feedback and further device processing. With this work, we show that different NW array and substrate spectral behaviors with delay time and excitation power can be used to determine which part of the sample dominates the detected spectrum. Here, we evaluate TRPL characterization of dense periodic as-grown GaAs NW arrays on a p-type GaAs substrate, including a sample with uncapped GaAs NWs and several samples passivated with AlGaAs radial shell of varied composition and thickness. We observe a strong spectral overlap of substrate and NW signals and find that the NWs can absorb part of the substrate luminescence signal, thus resulting in a modified substrate signal. The level of absorption depends on the NW-array geometry, making a deconvolution of the NW signal very difficult. By studying TRPL of substrate-only and as-grown NWs at 770 and 400 nm excitation wavelengths, we find a difference in spectral behavior with delay time and excitation power that can be used to assess whether the signal is dominated by the NWs. We find that the NW signal dominates with 400 nm excitation wavelength, where we observe two different types of excitation power dependence for the NWs capped with high and low Al composition shells. Finally, from the excitation power dependence of the peak TRPL signal, we extract an estimate of background carrier concentration in the NWs.

Original languageEnglish
Article number505706
Issue number50
Publication statusPublished - 22 Nov 2017
MoE publication typeA1 Journal article-refereed


  • background doping
  • nanowire arrays
  • substrate signal
  • TRPL


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