A comparative study of indium-tin-oxide (ITO) nanowhiskers (NWhs) and thin films as transparent conductors in the terahertz frequency range are conducted. We employ both transmission-type and reflection-type terahertz time-domain spectroscopies (THz-TDTS and THz-TDRS) to explore the farinfrared optical properties of these samples. Their electrical properties, such as plasma frequencies and carrier scattering times, are analyzed and found to be fitted well by the Drude-Smith model over 0.1-1.4

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... z. Further, structural and crystalline properties of samples are examined by scanning electron microscopy and X-ray diffraction, respectively. Non-Drude behavior of complex conductivities in ITO NWhs is attributed to carrier scattering from grain boundaries and impurity ions. In ITO thin films, however, the observed non-Drude behavior is ascribed to scattering by impurity ions only. Considering NWhs and thin films with the same height, mobility of the former is ∼125 cm 2 V −1 s −1 , much larger than those of the ITO thin films, ∼27 cm 2 V −1 s −1 . This is attributed to the longer carrier scattering time of the NWhs. The dc conductivities (∼250 −1 cm −1 ) or real conductivities in the THz frequency region of ITO NWhs is, however, lower than those of the ITO thin films (∼800 −1 cm −1 ) but adequate for use as electrodes. Partly, this is a reflection of the much higher plasma frequencies of thin films. Significantly, the transmittance of ITO NWhs ( ∼ = 60%-70%) is much higher ( ∼ = 13 times) than those of ITO thin films in the THz frequency range. The underneath basic physics is that Manuscript the THz radiation can easily propagate through the air-space among NWhs. The superb transmittance and adequate electrical properties of ITO NWhs suggest their potential applications as transparent conducting electrodes in THz devices.