Transfer-printing of as-fabricated carbon nanotube devices onto various substrates.

Exact replicas of carbon nanotube devices as fabricated on SiO(2) /Si substrates are prepared on various non-conventional substrates such as nonplanar or soft substrates by a simple, yet versatile, transfer-printing "cut-and-paste" method. In this way, harsh growth and fabrication processes can be minimized on the target substrates. The electrical characteristics of transfer-printed devices are compared to those of original devices.

Terahertz imaging and spectroscopy of large-area single-layer graphene.

We demonstrate terahertz (THz) imaging and spectroscopy of a 15 × 15-mm2 single-layer graphene film on Si using broadband THz pulses. The THz images clearly map out the THz carrier dynamics of the graphene-on-Si sample, allowing us to measure sheet conductivity with sub-mm resolution without fabricating electrodes. The THz carrier dynamics are dominated by intraband transitions and the THz-induced electron motion is characterized by a flat spectral response. A theoretical analysis based on the Fresnel coefficients for a metallic thin film shows that the local sheet conductivity varies across the sample from σ(s) = 1.7 × 10(-3) to 2.4 × 10(-3) Ω(-1) (sheet resistance, ρ(s) = 420 - 590 Ω/sq).