# Undoped and doped wurtzite GaAs probed by polarization- and time-resolved cathodoluminescence

**Authors:** Hung-Ling Chen, Thomas Bidaud, Andrea Scaccabarozzi, Romaric De Lépinau, Fabrice Oehler, Gilles Patriarche, Sophie Bouchoule, Jean-Christophe Harmand, Andrea Cattoni, Stéphane Collin

PMC · DOI: 10.1039/d5na00206k · 2025-04-10

## TL;DR

Researchers studied the properties of undoped and doped wurtzite GaAs nanowires using cathodoluminescence to understand their electronic behavior and crystal structure.

## Contribution

The study provides new insights into the electronic and optical properties of wurtzite GaAs through detailed cathodoluminescence analysis.

## Key findings

- Wurtzite GaAs luminescence is highly anisotropic and can be distinguished from zinc blende GaAs.
- Be-doping in wurtzite GaAs leads to a measured ionization energy of ∼30 meV and bandgap narrowing.
- Si-doped wurtzite GaAs shows a low-energy CL peak attributed to donor–acceptor pair recombination.

## Abstract

Nanowires (NWs) offer unique possibilities to control semiconductor heterostructures and polytypes at the nanometer scale. The crystal structure of GaAs can be switched from bulk cubic zinc blende (ZB) to the hexagonal wurtzite (WZ) phase, but the properties and doping of WZ GaAs are still poorly known. Here, we grow high-quality GaAs NWs containing large segments of pure ZB and WZ phases using self-catalyzed, vapor–liquid–solid molecular beam epitaxy. Undoped, Be-doped and Si-doped WZ GaAs are investigated by high-resolution cathodoluminescence (CL) at low temperature (10 K). The luminescence originating from the WZ region is unambiguously distinguished by its strong anisotropy, evidenced by polarimetry. In undoped GaAs, the WZ CL peak is found ∼1 meV higher than the free exciton energy in ZB. The recombination dynamics is probed by time-resolved CL and features a lifetime of 0.6 ns for exciton recombination and 1.65 ns for the free-electron-to-acceptor transition. From Be-doped NWs, we infer an ionization energy of ∼30 meV for the Be acceptor in GaAs WZ. The CL spectra broaden and redshift with increasing Be concentration due to the bandgap narrowing, following a trend similar to GaAs ZB. Si-doped WZ GaAs exhibits a low-energy CL peak (1.47 eV) attributed to the donor–acceptor pair recombination involving Si impurities. The degree of polarization of WZ luminescence decreases with increasing doping levels for both p-type and n-type. These results shed light on the properties and doping of WZ GaAs and show that time-resolved CL and CL polarimetry constitutes a powerful tool to characterize the crystal phase, local defect, transport and recombination mechanism at the nanoscale.

The WZ and ZB phases of single GaAs nanowires are probed by cathodoluminescence (CL) mapping, CL polarimetry and time-resolved CL.

## Linked entities

- **Chemicals:** GaAs (PubChem CID 14770), Be (PubChem CID 107649), Si (PubChem CID 5461123)

## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12004390/full.md

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Source: https://tomesphere.com/paper/PMC12004390