@article{iezzi_ankireddy_twiddy_losego_jur_2017, title={Printed, metallic thermoelectric generators integrated with pipe insulation for powering wireless sensors}, volume={208}, ISSN={["1872-9118"]}, DOI={10.1016/j.apenergy.2017.09.073}, abstractNote={The Internet of Things (IoT), coupled with advanced analytics, is poised to revolutionize manufacturing maintenance and efficiency. However, a practical route to powering these many IoT devices remains unclear. In this work, flexible thermoelectric generators (TEGs) are fabricated from low cost, screen printed silver and nickel inks before being integrated into a novel form factor device based on commercial steam pipe insulation. Through optimization of internal resistances and total device design, this 420-junction TEG device produces 308 µW of power at a temperature difference of 127 K. This is sufficient to power a temperature sensing circuit with wireless communication capabilities. In this report we demonstrate that, after an initial 4 h of charging, this TEG can power a standard RFduino microcontroller for 10 min while sending temperature readings every 30 s via Bluetooth Low Energy (BLE) to a cell phone. Additional optimization and scaling could further increase system efficiency and provide a viable route to powering an industrial wireless sensing network (WSN).}, journal={APPLIED ENERGY}, author={Iezzi, Brian and Ankireddy, Krishnamraju and Twiddy, Jack and Losego, Mark D. and Jur, Jesse S.}, year={2017}, month={Dec}, pages={758–765} }
 @article{ankireddy_menon_iezzi_yee_losego_jur_2016, title={Electrical Conductivity, Thermal Behavior, and Seebeck Coefficient of Conductive Films for Printed Thermoelectric Energy Harvesting Systems}, volume={45}, ISSN={["1543-186X"]}, DOI={10.1007/s11664-016-4780-2}, number={11}, journal={JOURNAL OF ELECTRONIC MATERIALS}, author={Ankireddy, Krishnamraju and Menon, Akanksha K. and Iezzi, Brian and Yee, Shannon K. and Losego, Mark D. and Jur, Jesse S.}, year={2016}, month={Nov}, pages={5561–5569} }