In this talk, inkjet-printed flexible antennas, RF electronics and sensors fabricated on paper and other polymer (e.g.LCP) substrates are introduced as a system-level solution for ultra-low-cost mass production of UHF
Radio Frequency Identification (RFID) Tags and Wireless Sensor Nodes (WSN) in an approach that could be easily extended to other microwave and wireless applications. The talk will cover examples from UHF up to the millimeter-wave
frequency ranges. A compact inkjet-printed UHF "passive-RFID" antenna using the classic T-match approach
and designed to match IC's complex impedance, is presented as a the first demonstrating prototype for this technology. Then, Prof. Tentzeris will briefly touch up the state-of-the-art area of fully-integrated wireless sensor
modules on paper or flexible LCP and show the first ever 20 sensor integration with an RFID tag module on paper,
as well as numerous 30 multilayer paper-based and LCP-based RF/microwave structures, that could potentially set
the foundation for the truly convergent wireless sensor ad-hoc networks of the future with enhanced cognitive intelligence and "rugged" packaging. Prof. Tentzeris will discuss issues concerning the power sources of "near-perpetual"
RF modules, including flexible minaturized batteries as well as power-scavenging approaches involving
thermal, EM, vibration and solar energy forms. The final step of the presentation will involve examples from
wearable (e.g. biomonitoring) antennas and RF modules, as well as the first examples of the integration of inkjet-printed nanotechnology-based (e.g.CNT) sensors on paper and organic substrates. It has to be noted that the talk
will review and present challenges for inkjet-printed organic active and nonlinear devices as well as future directions
in the area of environmentally-friendly ("green") RF electronics and "smart-skin' conformal sensors.
https://mediaspace.gatech.edu/media/tentzeris/1_xje34tv5
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