TY - JOUR
T1 - Influence of N2 gas flow on the high-frequency magneto-electrical properties of ZnO thin films
AU - Wang, Ching Chung
AU - Fu, Chao Ming
AU - Hu, Yu Min
AU - Huang, Cheng De
AU - Liu, Hsiang Lin
PY - 2014/1
Y1 - 2014/1
N2 - Undoped and N-doped ZnO (ZnO:N) thin films were prepared with different N2 flow rates on Al2O3 substrates by rf magnetron sputtering methods. The structure and high-frequency magneto-electrical properties of the ZnO:N films varied drastically with the variation of N2 flow rate. With the introduction of N2 gas during deposition, short hexagonal-like nanorods grown at grain surface were observed. In comparison with the undoped ZnO film, Raman spectra of the ZnO:N films revealed four anomalous peaks at 276, 510, 586 and cm-1, which are attributed to nitrogen-related defect complexes. Complex impedance spectra of all the films were analyzed by an equivalent circuit, employing two sets of parallel resistance and capacitance components in series to represent the oxide grain and grain boundary contributions, respectively. The analyzed results have implied that the N2 flow rate can effectively alter the defect concentration of the films, and consequently adjust the ac conductivity, magneto-dynamical and dielectric relaxation behaviors of the oxide-based magnetic semiconductor polycrystalline films.
AB - Undoped and N-doped ZnO (ZnO:N) thin films were prepared with different N2 flow rates on Al2O3 substrates by rf magnetron sputtering methods. The structure and high-frequency magneto-electrical properties of the ZnO:N films varied drastically with the variation of N2 flow rate. With the introduction of N2 gas during deposition, short hexagonal-like nanorods grown at grain surface were observed. In comparison with the undoped ZnO film, Raman spectra of the ZnO:N films revealed four anomalous peaks at 276, 510, 586 and cm-1, which are attributed to nitrogen-related defect complexes. Complex impedance spectra of all the films were analyzed by an equivalent circuit, employing two sets of parallel resistance and capacitance components in series to represent the oxide grain and grain boundary contributions, respectively. The analyzed results have implied that the N2 flow rate can effectively alter the defect concentration of the films, and consequently adjust the ac conductivity, magneto-dynamical and dielectric relaxation behaviors of the oxide-based magnetic semiconductor polycrystalline films.
KW - Dilute magnetic semiconductor (DMS)
KW - Equivalent circuit analysis
KW - Impedance spectroscopy
KW - Intrinsic defect
KW - N-doped zinc oxide (Zno)
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U2 - 10.1109/TMAG.2013.2278709
DO - 10.1109/TMAG.2013.2278709
M3 - Article
AN - SCOPUS:84904300975
SN - 0018-9464
VL - 50
JO - IEEE Transactions on Magnetics
JF - IEEE Transactions on Magnetics
IS - 1
M1 - 2278709
ER -