Author :
Street, R.A. ; Ng, T.N. ; Schwartz, D.E. ; Whiting, G.L. ; Lu, J.P. ; Bringans, R.D. ; Veres, J.
Author_Institution :
Palo Alto Res. Center, Xerox Co., Palo Alto, CA, USA
Abstract :
Printing as a manufacturing technique is a promising approach to fabricate low-cost, flexible, and large area electronics. Over the last two decades, a wide range of applications has been explored, among them displays, sensors, and printed radio-frequency identification devices. Some of these turned out to be challenging to commercialize due to the required infrastructure investment, accuracy or performance expectations compared to incumbent technologies. However, the progress in terms of material science, device, and process technology now makes it possible to target some realistic applications such as printed sensor labels. The journey leading to this exciting opportunity has been complex. This review describes the experience and current efforts in developing the technology at PARC, a Xerox Company. Printed smart labels open up low-cost solutions for tracking and sensing applications that require high volumes and/or would benefit from disposability. Examples include radiation tags, one-time use medical sensors, tracking the temperature of pharmaceuticals at the item level, and monitoring food sources for spoilage and contamination. Higher performance can be achieved with printed hybrid electronics, integrating microchip-based signal processing, wireless communication, sensing, multiplexing, as well as ancillary passive elements for low-profile microelectronic devices, opening up further applications. This technology offers custom circuitry for demanding applications and is complementary to mass printed transistor circuits. As an example, we describe a prototype sense-and-transmit system, focusing particularly on issues of integration, such as impedance matching between the sensor and circuits, robust printed interconnection of the chips, and compatible interface electronics between printed and discrete parts. Next-generation technologies will enable printing of entire smart systems using microchip inks. A new printing concept for the directed assembly of silicon - icrochips into functional circuits is described. The process is scalable and has the potential to enable additive, digital manufacturing of high-performance electronic systems.
Keywords :
intelligent sensors; printed circuit accessories; printed circuit manufacture; printing; technology management; PARC; Xerox Company; mass printed transistor circuits; microchip-based signal processing; microelectronic devices; one-time use medical sensors; printed hybrid electronics; printed smart systems; radiation tags; technology development; Flexible electronics; Lithography; Logic gates; Manufacturing processes; Printing; Surface treatment; Thin film transistors; Chiplets; hybrid electronics; organic transistors; printed electronics; smart labels;
