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Mass production techniques to provide highly sensitive and low-cost antennas are demanded to achieve the Internet of Things. Printing is a suitable technique for mass production of low-cost antennas. In this study, three types of printed silver nanowire (AgNW) antennas were fabricated by preparing inks containing AgNWs of different width and length. Printed antennas of short, narrow AgNWs achieved...
Silver nanoparticle lines are fabricated on flexible and highly heat-resistant nanopaper substrates made from densely packed 15 to 60 nm cellulose nanofibers. The conductivity of the lines is enhanced to the level of bulk silver.
Electrical properties of printed silver lines of varying widths are discussed. Conductive silver lines of widths 30–400 µm on polyimide substrates were fabricated by inkjet and screen printing with silver inks of two different viscosities. The printed lines with widths greater than 400 µm yielded excellent conductivities close to that of thin silver films regardless of ink viscosity. In contrast,...
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