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Bi-doping improves the magnetic properties of zinc oxide nanowires

Jamal Kazmi, Poh Choon Ooi, Boon Tong Goh, Min Kai Lee, M. F. Mohd Razip Wee, Siti Shafura A Karim, Syed Raza Ali Raza, Mohd Ambri Mohamed

2020RSC Advances84 citationsDOIOpen Access PDF

Abstract

-axis in the (001) direction due to the anisotropic crystal nature of ZnO. X-ray photoelectron spectroscopy (XPS) confirmed the presence of Bi, and at a higher doping content, the bismuth oxide phase appeared. The XRD patterns showed the wurtzite crystal structure, and the large intensity of the (002) peak suggests that most of the reflection was from the top hexagonal face of the NWs, and thus, the wires are predominantly aligned along the c-axis. The TEM analysis further confirmed the crystal growth direction along the (001) direction. The UV-Visible absorption and PL measurements also showed a decrease in the bandgap with an increase in doping concentration, which may be associated with the sp-d exchange interaction between the localized d-electrons and band electrons of the Bi ions. Bi-doping tended to increase the PL intensity in the visible region. The magnetic properties measured by SQUID at 4 and 300 K showed ferromagnetic behaviour for both the pristine and Bi-doped samples. However, the saturation magnetization for the Bi-doped samples was higher compared to that of the pristine ZnO samples until the threshold doping value. The obtained results demonstrated that Bi-doping can be used to tune both the optical and magnetic properties of ZnO NWs, hence paving the way for future spintronics and spin-polarized optoelectronics applications.

Topics & Concepts

Materials scienceWurtzite crystal structureFerromagnetismDopingX-ray photoelectron spectroscopyBand gapBismuthZincMagnetic semiconductorAnalytical Chemistry (journal)Condensed matter physicsNuclear magnetic resonanceOptoelectronicsChemistryMetallurgyChromatographyPhysicsZnO doping and propertiesCopper-based nanomaterials and applicationsGa2O3 and related materials
Bi-doping improves the magnetic properties of zinc oxide nanowires | Litcius