Printed electronics provides a promising potential pathway toward the realization of ultralow-cost RFID tags for item-level tracking of consumer goods. Here, we report on our progress in developing materials, processes, and devices for the realization of ultralow-cost printed RFID tags. Using printed nanoparticle patterns that are subsequently sintered at plastic-compatible temperatures, low-resistance interconnects and passive components have been realized. Simultaneously, printed transistors with mobilities >10/sup -1/ cm/sup 2//V-s have been realized using novel pentacene and oligothiophene precursors for pMOS and ZnO nanoparticles for nMOS. AC performance of these devices is adequate for 135-kHz RFID, though significant work remains to be done to achieve 13.56-MHz operation.
Vivek Subramanian, Jean Mj Frechet, P.C. Chang, Alejandro de la Fuente Vornbrock, D. C. Huang, J. B. Lee, Brian Mattis, Steven Molesa, Amanda R. Murphy, David Redinger, Steven K. Volkman
V. Subramanian, Jean Mj Frechet, Paul Chang, D. C. Huang, J. B. Lee, Feiyi Liao, Brian Mattis, Steven Molesa, Amanda R. Murphy, David Redinger, Steven K. Volkman
V. Subramanian, Jean Mj Frechet, Paul Chang, D. C. Huang, J. B. Lee, Feiyi Liao, Brian Mattis, Steven Molesa, Amanda R. Murphy, David Redinger, Steven K. Volkman
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