Title :
Printed organic transistors for ultra-low-cost RFID applications
Author :
Subramanian, Vivek ; Chang, Paul C. ; Lee, Josephine B. ; Molesa, Steven E. ; Volkman, Steven K.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of California, Berkeley, CA, USA
Abstract :
Printed electronics provides a potential pathway toward the realization of ultra-low-cost radio frequency identification (RFID) tags for item-level tracking of consumer goods. Here, we report on our progress in developing materials and processes for the realization of printed transistors for low-cost RFID applications. Using inkjet printing of novel conductors, dielectrics, and organic semiconductors, we have realized printed transistors with mobilities >10-1cm2/V-s. AC performance of these devices is adequate for 135-kHz RFID, and, with further optimization, 13.56-MHz RFID appears to be within reach. We review the performance of these devices, and discuss optimization strategies for achieving the ultimate performance goals requisite for realizing ultra-low-cost printed RFID.
Keywords :
organic semiconductors; printing; radiofrequency identification; transistors; 13.56 MHz; AC performance; conductors; dielectrics; inkjet printing; item-level tracking; organic semiconductors; printed electronics; printed organic transistor; ultra-low-cost RFID tag; ultra-low-cost radio frequency identification tag; Conducting materials; Costs; Dielectric materials; Frequency; Organic semiconductors; Printing; RFID tags; Radiofrequency identification; Semiconductor materials; Silicon; Organic semiconductors; printed electronics; radio frequency identification (RFID);
Journal_Title :
Components and Packaging Technologies, IEEE Transactions on
DOI :
10.1109/TCAPT.2005.859672
