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Energy Harvesting and Magneto-Inductive Communications With Molecular Magnets on Vibrating Graphene and Biomedical Applications in the Kilohertz to Terahertz Band

Burhan Gulbahar
2017 IEEE Transactions on Molecular, Biological and Multi-Scale Communications  
Energy harvesting (EH) and signal generation are critical for autonomous operation in challenging medium including biomedical channels.  ...  Proposed model and communication theoretical analysis present a practical framework for challenging applications in the near future by promising simple mechanical design.  ...  However, electrostatic, piezoelectric, triboelectric, micro-fluid or magnetostrictive types harvest energy from low frequency ambient vibrations without any target for high frequency signal generation  ... 
doi:10.1109/tmbmc.2018.2838146 dblp:journals/tmbmc/Gulbahar17a fatcat:sea2rs7sfjdhdpmzv6iqokxr5y

Electronics for Power and Energy Management [chapter]

Naser Khosro, Franois Krummenacher, Maher Kayal
2014 ICT - Energy - Concepts Towards Zero - Power Information and Communication Technology  
Thanks to their high efficiencies, solar cells can be good energy sources for miniaturized autonomous wireless sensor nodes, even in the order of a few cubic millimeters size.  ...  As mentioned before, in a kinetic energy harvester, including electrostatic, piezoelectric, and electromagnetic transducers, motion is transduced to electrical power.  ... 
doi:10.5772/57281 fatcat:bksuf6cspnfwvep6d5f37y6rua

Powering MEMS portable devices—a review of non-regenerative and regenerative power supply systems with special emphasis on piezoelectric energy harvesting systems

K A Cook-Chennault, N Thambi, A M Sastry
2008 Smart materials and structures (Print)  
The paper concludes with a discussion of research needs that are critical for the enhancement of piezoelectric energy harvesting devices.  ...  energy harvesting, along with recent advancements, and (3) to discuss future trends and applications for piezoelectric energy harvesting technology.  ...  novel electrostatic energy harvesting devices.  ... 
doi:10.1088/0964-1726/17/4/043001 fatcat:iidiuqblvbcq5hklke2smyr3du

Piezoelectric Energy Harvesting: A Systematic Review of Reviews

Jafar Ghazanfarian, Mohammad Mostafa Mohammadi, Kenji Uchino
2021 Actuators  
As a result, various energy review papers have been presented by many researchers to cover different aspects of piezoelectric-based energy harvesting, including piezo-materials, modeling approaches, and  ...  In the last decade, an enormous amount of attention has been paid to piezoelectric harvesters due to their flexibility in design and the increasing need for small-scale energy generation.  ...  They commented, in regard to nonlinear energy harvesters, that keeping nonlinear harvesters in high-energy oscillation states, especially under weak excitations, is a difficult task.  ... 
doi:10.3390/act10120312 fatcat:lzisvqic4rfkpl6pgw7lye55e4

Design of electromagnetic energy harvesters for large-scale structural vibration applications

Ian L. Cassidy, Jeffrey T. Scruggs, Sam Behrens, Mehrdad N. Ghasemi-Nejhad
2011 Active and Passive Smart Structures and Integrated Systems 2011  
This paper reports on the design and experimental validation of transducers for energy harvesting from largescale civil structures, for which the power levels can be above 100W, and disturbance frequencies  ...  An analytical expression for the average power generated across a resistive load is presented, which takes the nonlinear dissipative behavior of the device into account.  ...  displacement oscillations on the order of millimeters, and power on the scale of milliwatts (or below).  ... 
doi:10.1117/12.880639 fatcat:efsq2ekdmza2xjrdnwsnyarmpe

Piezoelectric Energy Harvesting: a Systematic Review of Reviews [article]

Jafar Ghazanfarian, Mohammad Mostafa Mohammadi, Kenji Uchino
2021 arXiv   pre-print
As a result, various energy review papers have been presented by many researchers to cover different aspects of piezoelectric-based energy harvesting, including piezo-materials, modeling approaches, and  ...  In the last decade, an explosive attention has been paid to piezoelectric harvesters due to their flexibility in design and increasing need to small-scale energy generation.  ...  On the nonlinear energy harvesters they remarked that maintaining the nonlinear harvesters in the high-energy oscillation states, especially under weak excitations is a difficult task. specially, with  ... 
arXiv:2101.09312v2 fatcat:4u6kpzbjlbdo3pmcmtw7wm72ym

Table of Contents

2019 Journal of Physics, Conference Series  
This paper describes an effort to develop a nonlinear wideband vibration energy harvester with self-powered stabilization control of its high-energy response.  ...  We model, design, and build highly coupled piezoelectric energy harvesters for frequency tuning capabilities using nonlinear electrical techniques.  ...  PW-23h A MAGNETICALLY-SPRUNG NONLINEAR RESONATOR FOR WIDEBAND VIBRATION ENERGY HARVESTING CONSISTING OF MAGNETIC COMPOSITE AND RING MAGNETS Y.  ... 
doi:10.1088/1742-6596/1407/1/011002 fatcat:5ttgm2jqtfgr3jf55i22inzuq4

Energy Harvesting From Human and Machine Motion for Wireless Electronic Devices

P.D. Mitcheson, E.M. Yeatman, G.K. Rao, A.S. Holmes, T.C. Green
2008 Proceedings of the IEEE  
Ambient motion is one of the main sources of energy for harvesting, and a wide range of motionpowered energy harvesters have been proposed or demonstrated, particularly at the microscale.  ...  | Energy harvesting generators are attractive as inexhaustible replacements for batteries in low-power wireless electronic devices and have received increasing research interest in recent years.  ...  APPLICATIONS FOR MOTION-BASED ENERGY HARVESTING A.  ... 
doi:10.1109/jproc.2008.927494 fatcat:oqsqoba6gza5fogq6v77zqkaci

Experimental Characterization Of Pull-In Parameters For An Electrostatically Actuated Cantilever

A. Sorrentino, G. Bianchi, D. Castagnetti, E. Radi
2020 Applications in Engineering Science  
First, by relying on a nonlinear differential model from the literature, we designed and built a macro-scale cantilever switch, which can be simply adapted to different configurations.  ...  This limits its operating point and is a critical issue for the switching of the actuator.  ...  Radi) . micro-nano scale devices, such as manipulators, tweezers, accelerom-24 eters, pressure sensors, memory devices and energy harvesting systems 25 ( Spaggiari et al., 2016 ) .  ... 
doi:10.1016/j.apples.2020.100014 fatcat:xtdavozi6jf77bzpxvsotlbpee

Power generation from conductive droplet sliding on electret film

Zhaochu Yang, Einar Halvorsen, Tao Dong
2012 Applied Physics Letters  
This fluidic electrostatic energy harvester is especially suitable for very low frequency vibration up to a few Hz.  ...  To overcome these challenges, a fluidic electrostatic energy harvester is proposed with employment of interdigital capacitance with a thin PTFE film deposited by sputtering process.  ...  Therefore, electrostatic energy conversion is a promising solution for micro energy harvester.  ... 
doi:10.1063/1.4720517 fatcat:56iucw4snrffhkbiydmclxj324

Toward virtual biopsy through an all fiber optic ultrasonic miniaturized transducer: a proposal

A. Acquafresca, E. Biagi, L. Masotti, D. Menichelli
2003 IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control  
charging ........Energy harvesting ........Energy management ............Demand-side management ............Energy conservation ............Energy efficiency ............Load management ............Transactive  ...  ........Digital-controlled oscillators ........Injection-locked oscillators ........Local oscillators ........Microwave oscillators ........Phase noise ........Ring oscillators ........Voltage-controlled  ... 
doi:10.1109/tuffc.2003.1244749 fatcat:l3jre4etsvcqzfyz2jqggji3gy

Piezoelectric Energy Harvesting Solutions

Renato Caliò, Udaya Rongala, Domenico Camboni, Mario Milazzo, Cesare Stefanini, Gianluca de Petris, Calogero Oddo
2014 Sensors  
This paper reviews the state of the art in piezoelectric energy harvesting. It presents the basics of piezoelectricity and discusses materials choice.  ...  Non-Resonant Devices A novel approach based on nonlinear oscillators was proposed by Cottone and colleagues [94] .  ...  The fabricated MEMS device operated in the latter condition (nonlinear oscillation).  ... 
doi:10.3390/s140304755 pmid:24618725 pmcid:PMC4003967 fatcat:ba3meqv22vdcrbwhxxdizlcwvm

Hybrid energy harvester based on piezoelectric and electromagnetic mechanisms

Bin Yang
2010 Journal of Micro/Nanolithography  
A novel hybrid energy harvester integrated with piezoelectric and electromagnetic energy harvesting mechanisms is investigated.  ...  Terms of Use: Yang et al.: Hybrid energy harvester based on piezoelectric and electromagnetic mechanisms J. Micro/Nanolith.  ...  Acknowledgments The authors thank the testing support from Institute of Microelectronics ͑IME͒, A‫ء‬STAR.  ... 
doi:10.1117/1.3373516 fatcat:bbwfkqmomzbd7esf7h4jwtfm7q

2020 Index IEEE Transactions on Microwave Theory and Techniques Vol. 68

2020 IEEE transactions on microwave theory and techniques  
RF Harvesting; TMTT Jan. 2020 365-376 Grbic, A., see Scarborough, C., 1248-1259 Grebner, T., see Steiner, M., TMTT Nov. 2020 4652-4661 Grimes, P.K., see Zeng, L., TMTT July 2020 2515-2520 Grossner,  ...  Ghazizadeh, M.H., and Medi, A., Novel Trombone Topology for Wideband True-Time-Delay Implementation; TMTT April 2020 1542-1552 Ghazizadeh, M.H., and Medi, A., High Precision CMOS Integrated Delay Chain  ...  Broadband Millimeter-Wave Textile-Based Flexible Rectenna for Wearable Energy Harvesting.  ... 
doi:10.1109/tmtt.2021.3049615 fatcat:kik4orti4je4xdsgazdbmdoopy

Program of the Multi-Conference on Systems, Signals & Devices

2021 2021 18th International Multi-Conference on Systems, Signals & Devices (SSD)  
Monastir occupies a privileged geographical position between the center and the south of Tunisia, with a wide opening on the Mediterranean.  ...  (Italy) SCI 1.3 Arched beam based energy harvester using electrostatic transduction for general in-plane excitations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .  ...  -Circuit test and device characterization • Sensor Systems for IoT -Low-power sensor networks -Sensor telemetry and monitoring -Energy harvesting and conversion -Energy management for low power systems  ... 
doi:10.1109/ssd52085.2021.9429391 fatcat:5hnu6ay5inemhf275kqonilrpa
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