The Physics Society of Iran Iranian Journal of Physics Research 1682-6957 21 2 2021 08 23 Study the effect of symmetrical voltage of electrodeposition and annealing ‎temperature on magnetic properties of Fe-Sn alloy nanowires Study the effect of symmetrical voltage of electrodeposition and annealing ‎temperature on magnetic properties of Fe-Sn alloy nanowires 243 250 1691 10.47176/ijpr.21.2.40171 FA Z Amjadian Dapartment of Physics, Faculty of Science, University of Kurdistan, Sanandaj, Iran B Astinchap Dapartment of Physics, Faculty of Science, University of Kurdistan, Sanandaj, Iran Z Alemipour Dapartment of Physics, Faculty of Science, University of Kurdistan, Sanandaj, Iran Journal Article 2020 01 25 In this research, the Fe-Sn alloy nanowires were made by AC electrodeposition method in anodic ‎aluminum oxide (AAO). The effect of different symmetrical voltages of electrodeposition (17.5-32.5 V) ‎and annealing temperature on magnetic and structural properties of Fe-Sn nanowires were investigated. ‎The magnetic properties, morphology, element composition of materials and crystal structure of the ‎nanowires were studied by AGFM, SEM, EDX and XRD, respectively. The results showed that, coercivity ‎field (Hc) and square ratio (Sq) increases by increasing deposition voltage and also, crystallinity of the ‎nanowires and resulting their crystalline magnetic anisotropy increased, but deposition percentage of Sn ‎to Fe reduced. The Hc and Sq of prepared nanowires were increased by annealing due to increases in their ‎crystalline structure and crystalline magnetic anisotropy. The most variation in Hc and Sq were achieved ‎for prepared nanowires at 30 V.‎ <br />  In this research, the Fe-Sn alloy nanowires were made by AC electrodeposition method in anodic ‎aluminum oxide (AAO). The effect of different symmetrical voltages of electrodeposition (17.5-32.5 V) ‎and annealing temperature on magnetic and structural properties of Fe-Sn nanowires were investigated. ‎The magnetic properties, morphology, element composition of materials and crystal structure of the ‎nanowires were studied by AGFM, SEM, EDX and XRD, respectively. The results showed that, coercivity ‎field (Hc) and square ratio (Sq) increases by increasing deposition voltage and also, crystallinity of the ‎nanowires and resulting their crystalline magnetic anisotropy increased, but deposition percentage of Sn ‎to Fe reduced. The Hc and Sq of prepared nanowires were increased by annealing due to increases in their ‎crystalline structure and crystalline magnetic anisotropy. The most variation in Hc and Sq were achieved ‎for prepared nanowires at 30 V.‎ <br />  https://ijpr.iut.ac.ir/article_1691_8303a79b1e19a194f1875981be5bdb6f.pdf