The investigation of the maximum doping concentration of iron in zinc sulfide nanowires, and its optical and ferromagnetic properties

► The maximum concentration of Fe ions in the ZnS nanowires is 5.81%. ► The Fe2+ ions act as the nonradiative center for the ZnS:Fe2+ nanowires. ► We observe the room temperature ferromagnetism for the ZnS:Fe2+ nanowires. The wurtzite-type ZnS:Fe2+ nanowires were prepared by a hydrothermal method at...

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Bibliographic Details
Published in:Superlattices and microstructures 2013-02, Vol.54, p.181-187
Main Authors: Wei, Maobin, Yang, Jinghai, Yan, Yongsheng, Cao, Jian, Zuo, Qinghui, Fu, Hao, Wang, Bingji, Fan, Lin
Format: Article
Language:English
Subjects:
Ferromagnetism
Hydrothermal
Photoluminiscence
ZnS:Fe2
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Summary:► The maximum concentration of Fe ions in the ZnS nanowires is 5.81%. ► The Fe2+ ions act as the nonradiative center for the ZnS:Fe2+ nanowires. ► We observe the room temperature ferromagnetism for the ZnS:Fe2+ nanowires. The wurtzite-type ZnS:Fe2+ nanowires were prepared by a hydrothermal method at 180°C without any surface-active agent. The results showed that the average diameter of the nanowires was about 10nm. The Fe2+ ions were substitutionally incorporated into the ZnS host and the maximum concentration of the Fe2+ ions in the ZnS nanowires can reach to 5.81%. The absorption peak exhibited a small red-shift as the Fe doped ratio increased, which may be due to the increased size of the nanowires. After adding Fe2+ ions into the ZnS nanowires, no Fe-related emission peak can be observed and the emission intensity was quenched, indicating that the Fe2+ ions only acted as the nonradiative center. The ferromagnetism of the ZnS:Fe2+ nanowires was observed around room temperature, the mechanism of which was explained by the super-exchange mechanism.
ISSN:0749-6036
1096-3677
DOI:10.1016/j.spmi.2012.11.018