Fabrication of Long-Range Ordered Aluminum Oxide and Fe/Au Multilayered Nanowires for 3-D Magnetic Memory
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Fabrication of long-range ordered aluminum oxide and final Fe-Au multilayered nanowires for 3D magnetic memory_Joseph Um_091819(010920) (1)[1].pdf
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ArticleAuthors
Um, Joseph
Zamani Kouhpanji, Mohammad Reza

Liu, Samuel

Nemati Porshokouh, Zohreh
Sung, Sang Yeob
Kosel, Jürgen

Stadler, Bethanie

KAUST Department
Computer, Electrical and Mathematical Sciences and Engineering (CEMSE) DivisionElectrical Engineering Program
Sensing, Magnetism and Microsystems Lab
Date
2020-09-02Online Publication Date
2020-09-02Print Publication Date
2020-02Submitted Date
2019-06-22Permanent link to this record
http://hdl.handle.net/10754/661516
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Large-scale long-range ordered anodic aluminum oxide and multilayered nanowires (NWs) are attractive to 3-D nanostructured material applications, such as high-density 3-D magnetic memory. This article demonstrates long-range ordered aluminum oxide made by simple and inexpensive double imprinting with line-patterned stamp and uniform iron-gold multilayered NWs fabricated by galvanostatic electrochemical deposition with a single electrolyte bath. These two structural features show potential for future high-density recording systems that require long-range ordered devices separated from each other by insulation to eliminate crosstalk.Citation
Um, J., Zamani Kouhpanji, M. R., Liu, S., Nemati Porshokouh, Z., Sung, S.-Y., Kosel, J., & Stadler, B. (2020). Fabrication of Long-Range Ordered Aluminum Oxide and Fe/Au Multilayered Nanowires for 3-D Magnetic Memory. IEEE Transactions on Magnetics, 56(2), 1–6. doi:10.1109/tmag.2019.2942946Sponsors
This work was supported by the National Science Foundation through the National Nano Coordinated Infrastructure Network under Award ECCS-1542202, and through the Materials Research Science and Engineering Centers Program, which was performed in the Minnesota Nano Center and the Characterization Facility, University of Minnesota, respectively.Journal
IEEE Transactions on Magneticsae974a485f413a2113503eed53cd6c53
10.1109/TMAG.2019.2942946