الفهرس 
: State-of-the-Art Manufacturing
Characterization of the printed thin filmsOnly 14 pages are availabe for public view
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Abstract
Inkjet printing is a low-cost technique suitable to fabricate flexible electronic devices using solutions of conductive nanoparticles on a large variety of substrates without material waste as in conventional etching techniques. In this dissertation, low-profile wideband coplanar waveguide-fed monopole antennas operating at 20 GHz are designed and printed using Copper Oxide and Silver nanoparticles inks on flexible substrates. Polyethylene Terephthalate and Epson paper were the chosen flexible substrates. The effects of altering the DROP spacing of the ink on the conductivity of the printed films as well as on the antenna parameters were fully investigated by numerical simulations and by measurements. A conductivity of 2.8×〖10〗^7 Ω^(-1) m^(-1) was found for the Copper Oxide nanoparticles films printed on Polyethylene Terephthalate using a DROP spacing of 20 µm leading to superior antenna performance with an achieved gain and efficiency of 1.82 dB and 97.6%, respectively. On the other hand, antennas on Epson paper substrate show a -10 dB return loss, bandwidth which extends from 17.9 GHz up to 23.3 GHz, leading to a fractional bandwidth of 26.0%.
Thin films printed using Silver nanoparticles on Polyethylene Terephthalate substrate have shown a conductivity of 1.8×〖10〗^7 〖 Ω〗^(-1) m^(-1 ) using a DROP spacing of 30 µm. The corresponding coplanar waveguide feed monopole antennas achieved a gain and efficiency of 1.67 dB and 96%, respectively. In addition, the size reduction reached 99% relative to bulk material. Experiments showed that smaller DROP spacings lead to bulging of the printed lines while the antenna performance decreases for longer ones. At the same DROP spacing, antennas printed on Epson paper substrate showed a -10 dB return loss bandwidth which extends from 17.18 GHz up to 24.3 GHz, leading to a fractional bandwidth of 34.34 %.