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Fabrication and structural, electrical characterization of i-ZnO/n-ZnO nanorod homojunctions
S. Yılmaz,E. Bacaksız,İ. Polat,Y. Atasoy 한국물리학회 2012 Current Applied Physics Vol.12 No.5
Well-aligned ZnO nanorods were synthesized by a vapor phase transport method on ZnO buffer layer coated n-Si substrates. X-ray diffraction and scanning electron microscopy results showed that the deposited ZnO nanorods crystallize in the wurtzite structure and are highly textured with their c-axes normal to the substrate and show a clearly hexagonal morphology. A heavily compensated and intrinsic ZnO layer (i-ZnO) doped with both Mg and Na was deposited on the nominally undoped ZnO nanorods (which show a natural n-type behavior) to produce an i-ZnO/n-ZnO homojunction. The i-ZnO layer consisted of the grainy shape nano-crystallites with the wavy surface morphology. The currentevoltage (I-V) characteristics of these structures in the temperature range of 150e300 K have been analyzed in the framework of standard thermionic emission (TE) theory with the assumption of a Gaussian distribution of the barrier heights. The values of zero bias barrier height (Φb0) and ideality factor (n) were found to be strongly temperature dependent whereby n decreases while Φb0 increases with increasing temperature. The ln(I0/T2) vs q/kT plot shows a straight line behavior and the values of activation energy (Ea = Φb0) and the Richardson constant (A*) determined from the intercept and slope of the plot were 0.926 eV and 2.61 × 10-8 A cm-2 K-2, respectively. This value of A* is much lower than the known value of 32 A cm-2 K-2 for ZnO. Thus, a modified ln(0=T2)-(σ20q2=2k2T2)vs. q/kT plot based on a Gaussian distribution of barrier heights was used which yields a mean barrier height (Φb)and modified effective Richardson (A**) of 1.032 eV and 34.85 A cm- K-, respectively. This value of A** is much closer to the theoretical value of 32 A cm-2K-2 for ZnO.