posted on 2019-07-03, 15:45authored byY Liu, Y Gong, NP Mellott, B Wang, H Ye, Y Wu
CuAlO2 has been examined as a potential luminescent material by substituting Eu for Al cations in the delafossite structure. CuAlO2:Eu3+ nanofibers have been prepared via electrospinning for the ease of mitigating synthesis requirements and for future optoelectronics and emerging applications. Single-phase CuAlO2 fibers could be obtained at a temperature of 1100 °C in air. The Eu was successfully doped in the delafossite structure and two strong emission bands at ~405 and 610 nm were observed in the photoluminescence spectra. These bands are due to the intrinsic near-band-edge transition of CuAlO2 and the f-f transition of the Eu3+ activator, respectively. Further electrical characterization indicated that these fibers exhibit semiconducting behavior and the introduction of Eu could act as band-edge modifiers, thus changing the thermal activation energies. In light of this study, CuAlO2:Eu3+ fibers with both strong photoluminescence and p-type conductivity could be produced by tailoring the rare earth doping concentrations.
Funding
Y. Liu and Y. Q. Wu gratefully acknowledge the US Air Force Office of Scientific Research [contract FA9550-14-1-0155] for funding and supporting the research. This work was partially supported by FP7 Marie Curie Action [project No: 295208] sponsored by European Commission to Dr. H. T. Ye.
History
Citation
Science and Technology of Advanced Materials, 2016, 17 (1), pp. 200-209
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Engineering
Version
VoR (Version of Record)
Published in
Science and Technology of Advanced Materials
Publisher
National Institute for Materials Science (NIMS), Taylor & Francis, World Materials Research Institute Forum