Transcription of Preliminary Technical Program
1 Preliminary Technical Program The Executive Committee reserves the right to amend the Program , if necessary. 1. Wednesday, December 5. 08:00 Conference Welcome David P. Arnold, University of Florida, USA. Luc Fr chette, Universit de Sherbrooke, CANADA. 08:20 Plenary Presentation I. WPA-01 OPTIMIZING THE ENERGY BALANCE TO ACHIEVE AUTONOMOUS. SELF-POWERING FOR VIGILANT HEALTH AND IOT APPLICATIONS. Veena Misra1, A. Bozkurt1, Calhoun2, S. Datta3, M. Dickey1, M. Kiani4, J. Lach2, B. Lee1, J. Jur1, O. Oralkan1, M. Ozturk1, R. Rajagopalan4, S. Roundy5, J. Strohmaier1, S. Trolier-McKinstry4, D. Vashaee1, D. Wentzloff6. and D. Werner4. 1 North Carolina State University, USA, 2 University of Virginia, USA, 3 Notre Dame University, USA, 4 Pennsylvania State University, USA, and 5 University of Utah, USA, 6 University of Michigan, USA. 09:00 Focus Session I - Wearable Energy Harvesters 09:00 - 09:20. WFA-01 FLEXIBLE TEXTILE POWER MODULE. S. Yong, J. Shi, and Beeby University of Southampton, UK.
2 09:20 - 09:40. WFA-02 FABRICATION AND CHARACTERIZATION OF A WRIST-DRIVEN. ROTATIONAL ENERGY HARVESTER USING MULTIPLE PLUCKED. PIEZOELECTRIC UNIMORPHS. Halim1, T. Xue1, R. Rantz1, Q. Zhang2, L. Gu2, K. Yang2, and S. Roundy1. 1 University of Utah, USA and 2 Analog Devices Inc., USA. 09:40 - 10:00. WFA-03 A FULLY-ENCLOSED WRIST-WEARABLE HYBRID NANOGENERATOR. FOR SELF-POWERED SENSORS. P. Maharjan and, Park Kwangwoon University, KOREA. 10:00 Refreshment Break 2. SESSION W1A: SESSION W1B: FUEL CELLS AND REACTORS TUNABLE, BROADBAND, AND. NONLINEAR HARVESTERS. Crystal Tomoka Room Flagler Room 10:30 10:50. W1A-01 W1B-01. TESTING OF A 3D-PRINTED SOLAR MODELING AND DESIGN OF HIGHLY. MICRO-REACTOR FOR HYDROGEN COUPLED PIEZOELECTRIC ENERGY. PRODUCTION VIA NATURAL GAS HARVESTERS FOR BROADBAND. REFORMING APPLICATIONS. P. Camus, Dufault, D. Mehanovic, D. Gibus1,2, P. Gasnier1, A. Morel1,2, N. Braidy, Fr chette, and M. Picard S. Boisseau1, and A. Badel2. Universit de Sherbrooke, CANADA 1 Universit Grenoble Alpes, CEA-Leti, FRANCE and 2 Universit Savoie Mont Blanc, FRANCE.
3 10:50 11:10. W1A-02 W1B-02. MICRO ALKALINE FUEL CELL CO-OPTIMIZATION OF A. SUPPORTED BY MEMS-BASED PIEZOELECTRIC ENERGY. BACKBONE HARVESTING SYSTEM FOR. M. Pilaski1, Sun2, G. Dura1, BROADBAND OPERATION. J. Wartmann1, F. Letzkus2, and S. Zhao1, U. Radhakrishna2, S. Hanly3, A. Heinzel1 J. Ma4, Lang2, and D. Buss5. 1 Hydrogen and Fuel Cell Center, 1 Tianjin University, CHINA, GERMANY and 2 Institut f r 2 Massachusetts Institute of Technology, Mikroelektronik Stuttgart, GERMANY USA, 3 Mide Technology, USA, 4 Guangdong University of Technology, CHINA, and 5 Texas Instruments, USA. 11:10 11:30. W1A-03 W1B-03. THERMALLY SELF-SUSTAINING TOWARD SELF-POWERED. TUBULAR SOFC POWER GENERATOR NONLINEAR WIDEBAND VIBRATION. WITH NO MOVING PARTS ENERGY HARVESTING WITH HIGH- J. Wongwiwat1, P. Bhuripanyo1, ENERGY RESPONSE STABILIZATION. Welles2, DeBiase2, J. Ahn2, S. Ushiki and A. Masuda and Ronney1 Kyoto Institute of Technology, JAPAN. 1 University of Southern California, USA. and 2 Syracuse University, USA.
4 11:30 11:50. W1A-04 W1B-04. MINIATURE FUEL CELL WITH SELF-TUNABLE VIBRATION ENERGY. MONOLITHICALLY FABRICATED SI HARVESTER. ELECTRODE -FIRST PROTOTYPE J. Esch1, D. Hoffmann1, D. Stojakov1, WITH AU-PD-PT MULTILAYER and Y. Manoli2. CATALYST 1 Hahn-Schickard, GERMANY and T. Kurose1, R. Shirai1, N. Vasiljevic2, 2 University of Freiburg, GERMANY. and M. Hayase1. 1 Tokyo University of Science, JAPAN and 2 University of Bristol, UK. 3. 11:50 Lunch on Own SESSION W2A: SESSION W2B: THERMOELECTRIC ENERGY POWER ELECTRONICS AND. HARVESTERS ENERGY MANAGEMENT. CIRCUITS. Crystal Tomoka Room Flagler Room 13:30 13:50. W2A-01 W2B-01. POWER ENHANCEMENT OF SILICON A SELF-SUSTAINED ENERGY. MEMBRANE-BASED STORAGE SYSTEM WITH AN. THERMOELECTRIC ENERGY ELECTROSTATIC AUTOMATIC. HARVESTER WITH TAILORED HOLEY SWITCH AND A BUCK CONVERTER. NANOSTRUCTURES FOR TRIBOELECTRIC. R. Yanagisawa1 and M. Nomura1,2 NANOGENERATORS. 1 University of Tokyo, JAPAN and H. Zhang1, D. Galayko2, and P. Basset1. 2 Japan Science and Technology Agency 1 Universit Paris-Est, FRANCE and (JST), JAPAN 2 Sorbone Universit s, FRANCE.
5 13:50 14:10. W2A-02 W2B-02. VERTICAL SELF-DEFINED THIN-FILM DUAL-STAGE ELECTRODE DESIGN OF. THERMOELECTRIC THERMOCOUPLES ROTATIONAL ELECTRET ENERGY. BY ANGLED CO-EVAPORATION FOR HARVESTER FOR EFFICIENT SELF- USE IN TEGS POWERED SSHI. Y. Yuan and K. Najafi Y. Liu1, A. Badel2, and Y. Suzuki1. University of Michigan, USA 1 University of Tokyo, JAPAN and 2 Universit Savoie Mont Blanc, FRANCE. 14:10 14:30. W2A-03 W2B-03. DESIGN AND IMPLEMENTATION OF A A SIMPLE PASSIVE 390 mV AC/DC. SOIL PROFILE PROBE POWERED BY RECTIFIER FOR ENERGY. AIR AND SOIL TEMPERATURE HARVESTING APPLICATIONS. DIFFERENCES A. Santiago Rodriquez, N. Garraud, N. Ikeda, R. Shigeta, J. Shiomi, D. Alabi, A. Garraud, and Arnold and Y. Kawahara University of Florida, USA. University of Tokyo, JAPAN. 14:30 Transition Break 4. SESSION W3A: SESSION W3B: ION SOURCES AND MICROFABRICATED. THERMOIONIC EMITTERS HARVESTERS. Crystal Tomoka Room Flagler Room 14:40 15:00. W3A-01 W3B-01. COMPACT, 3D-PRINTED ELECTRON PUSH-BUTTON KINETIC ENERGY.
6 IMPACT ION SOURCE WITH HARVESTER WITH SOFT-X-RAY- MICROFABRICATED, NANOSHARP SI CHARGED FOLDED MULTILAYER. FIELD EMITTER ARRAY CATHODE PIEZOELECTRET. C. Yang and Vel squez-Garc a J. Lu and Y. Suzuki Massachusetts Institute of Technology, USA University of Tokyo, JAPAN. 15:00 15:20. W3A-02 W3B-02. GLOW-DISCHARGE ION SOURCE FOR A SILICON MEMS EM VIBRATION. ON-CHIP INTEGRATED MINIATURE ENERGY HARVESTER. MEMS MASS SPECTROMETER Y. Yang, U. Radhakrishna, D. Ward, T. Grzebyk, P. Szyszka, Chandrakasan, and Lang A. G recka-Drzazga, and Dziuban Massachusetts Institute of Technology, Wroc aw University of Science USA. and Technology, POLAND. 15:20 15:40. W3A-03 W3B-03. THERMIONIC ENERGY CONVERTER A POWER-DENSITY-ENHANCED MEMS. BASED ON MICRON-GAP ELECTROSTATIC ENERGY. NANOSTRUCTURED SPACERS: HARVESTER WITH SYMMETRIZED. ACHIEVING RECORD-HIGH SHORT- HIGH-ASPECT RATIO COMB. CIRCUIT CURRENT ELECTRODES. Nicaise1, C. Lin1, M. Azadi1, H. Honma1, H. Mitsuya2, G. Hashiguchi3, T. Bozorg-Grayeli2, P.
7 Adebayo-Ige1, H. Fujita4, and H. Toshiyoshi1. K. Van Houten3, F. Schmitt3, Lilley1, 1 University of Tokyo, JAPAN, Y. Pfitzer1, W. Cha1, N. Melosh2, 2 Saginomiya Seisakusho, Inc., JAPAN, Howe2, Schwede1, and I. Bargatin1 3 Shizuoka University, JAPAN, and 1 University of Pennsylvania, USA, 4 Tokyo City University, JAPAN. 2 Stanford University, USA, and 3 Spark Thermionics, USA. 15:40 Transition Break 15:50 Poster and PowerMEMS - in - Action Session A. 17:50 End of Day 5. Thursday, December 6. 08:00 Conference Announcements 08:15 Exhibitor Table-Top Elevator Pitches 08:20 Plenary Presentation II. TPA-01 MULTIFERROIC MATERIALS, DEVICES AND SYSTEMS: P(VDF TrFE) BASED SPIRAL THERMO-MAGNETO-ELECTRIC. GENERATORS FOR HARVESTING LOW GRADE THERMAL ENERGY. Kishore1, D. Singh1, P. Kumar1, R. Sriramdas1, M. Sanghadasa2, and Shashank Priya3. 1 Virginia Polytechnic Institute and State University, USA, Aviation &. Missile Research Development and Engineering Center, USA, and 3 Pennsylvania State University, USA.
8 09:00 Focus Session II - Multiferroic Devices and Systems 09:00 - 09:20. TFA-01 ELECTRIC-FIELD CONTROLLED MAGNETIC REORIENTATION IN. EXCHANGE COUPLED COFEB/NI BILAYER MICROSTRUCTURES. Z. Xiao1, R. Lo Conte2, M. Goiriena2,3, Chopdekar2, X. Li1, S. Tiwari1, Lambert2, S. Salahuddin2, Carman1, K. Wang1, J. Bokor2, and Candler1,4. 1 University of California, Los Angeles, USA, 2 University of California, Berkeley, USA, 3 University of the Basque Country, SPAIN, and 4 California Nano Systems Institute, USA. 09:20 - 09:40. TFA-02 BAR-SHAPED MAGNETOELECTRIC GYRATOR. Leung, X. Zhuang, J. Li, and D. Viehland Virginia Polytechnic Institute and State University, USA. 09:40 - 10:00. TFA-03 WIDE-BAND MULTIFERROIC QUARTZ MEMS ANTENNAE. Kubena1, X. Pang2, Lee1, Yong2, and Wall1. 1 HRL Laboratories, LLC., USA and 2 Rutgers University, USA. 10:00 Refreshment Break 6. SESSION T4A: SESSION T4B: BIOCHEMICAL AND BIO- ELECTRET MATERIALS AND. INSPIRED POWER/ENERGY HARVESTERS. SYSTEMS. Crystal Tomoka Room Flagler Room 10:30 10:50.
9 T4A-01 T4B-01. SUPERCAPACITIVE MICRO-BIO- DEVELOPMENT OF A HIGH- PHOTOVOLTAICS PERFORMANCE AMORPHOUS. L. Liu, M. Mohammadifar, and S. Choi FLUORINATED POLYMER ELECTRET. State University of New York-Binghamton, BASED ON QUANTUM CHEMICAL. USA ANALYSIS. S. Kim, K. Suzuki, and Y. Suzuki University of Tokyo, JAPAN. 10:50 11:10. T4A-02 T4B-02. A COMPLETE TATTOO-BASED DEMONSTRATION OF AN ELECTRET. WIRELESS BIOFUEL CELL USING GENERATOR FOR ENERGY. LACTATE DIRECTLY FROM SWEAT AS HARVESTING WITHOUT ANY. FUEL CHARGING PROCESS: UTILIZATION. Escalona-Villalpando1, OF SPONTANEOUS ORIENTATION OF. E. Ortiz-Ortega1, Bocanegra-Ugalde2, POLAR MOLECULES. Minteer3, Arriaga1, Y. Tanaka1,2, N. Matsuura1, and H. Ishii1. and J. Ledesma-Garc a2 1 Chiba University, JAPAN and 1 Centro de Investigaci n y Desarrollo 2 Japan Science and Technology Agency Tecnol gico, MEXICO, 2 Universidad (JST), JAPAN. Aut nomous de Queretaro, MEXICO, and 3 University of Utah, USA. 11:10 11:30. T4A-03 T4B-03. VIRUS-ASSEMBLED TECHNOLOGY STOCHASTIC MODELING OF HUMAN.
10 FOR NEXT GENERATION BIOENERGY ARM SWING TOWARD STANDARD. HARVESTING DEVICES TESTING FOR ROTATIONAL ENERGY. S. Chu, Brown, Culver, HARVESTER. and R. Ghodssi Y. Tanaka, T. Miyoshi, and Y. Suzuki University of Maryland, USA University of Tokyo, JAPAN. 11:30 11:50. T4A-04 T4B-04. A NOVEL FLEXIBLE CONDUCTIVE SELF-RECHARGEABLE ELECTRET. SPONGE-LIKE ELECTRODE CAPABLE BASED ON VIBRATION ENERGY. OF GENERATING ELECTRICAL HARVESTER. ENERGY FROM THE DIRECT Y. Zhang1, Y. Hu1,2, M. Wang1, OXIDATION OF AQUEOUS GLUCOSE and F. Wang1,2,3. D. Desma le1, F. La Malfa1,2, F. Rizzi1, 1 Southern University of Science and A. Qualtieri1, M. Di Lorenzo3, Technology, CHINA, 2 Hong Kong and M. De Vittorio1,2 University of Science and Technology, 1 Istituto Italiano di Tenologia, (IIT), ITALY, CHINA, and 3 Chinese Academy of 2 Universit del Salento, ITALY, and Sciences, CHINA. 3 University of Bath, UK. 11:50 Lunch on Own 7. SESSION T5A: SESSION T5B: BATTERY TECHNOLOGIES PYROELECTRIC ENERGY. HARVESTERS.
