Energy harvesting device based on a metallic glass/PVDF magnetoelectric laminated composite

Smart Materials and Structures

Volumn 24, Issue 6, 2015, Pages

  Lasheras, A ^a   Gutierrez J ^a   Reis, S ^b   Sousa, D ^b   Silva, M ^b   Martins, P ^b,c   Lanceros Mendez, S ^b,c   Barandiaran J M ^a   Shishkin, D A ^d   Potapov, A P ^d  

^a UNIVERSITY OF THE BASQUE COUNTRY UPV EHU   (Spain)

^b UNIVERSITY OF MINHO   (Portugal)

^c INTERNATIONAL IBERIAN NANOTECHNOLOGY LABORATORY   (Portugal)

^d INSTITUTE OF METAL PHYSICS   (Russian Federation)

Author keywords

electromagnetic; energy harvesting; magnetoelectric; metallic glass; micro power; PVDF

Indexed keywords

AMORPHOUS SILICON; ENERGY HARVESTING; EPOXY RESINS; GLASS; LAMINATING; METALLIC GLASS; THERMOELECTRIC POWER;

ELECTROMAGNETIC; ENERGY HARVESTING DEVICE; MAGNETOELECTRIC; MICRO POWER; PIEZOELECTRIC ELEMENTS; POLYVINYLIDENE FLUORIDES; PVDF; VOLTAGE MULTIPLIERS;

LAMINATED COMPOSITES;

EID: 84930002285     PISSN: 09641726     EISSN: 1361665X     Source Type: Journal    
DOI: 10.1088/0964-1726/24/6/065024     Document Type: Article

References (33)

1. Martins P and Lanceros-Méndez S 2013 Polymer-based magnetoelectric materials Adv. Funct. Mater. 23 3371-85
2. Bichurin M I, Petrov V M and Petrov R V 2012 Direct and inverse magnetoelectric effect in layered composites in electromechanical resonance range: a review J. Magn. Magn. Mater. 324 3548-50
3. Ma J et al 2011 Recent progress in multiferroic magnetoelectric composites: from bulk to thin films Adv. Mater. 23 1062-87
4. Silva M et al 2013 Optimization of the magnetoelectric response of poly(vinylidene fluoride)/epoxy/vitrovac laminates ACS Appl. Mater. Interfaces 5 10912-9
5. Martins P et al 2014 Effect of filler dispersion and dispersion method on the piezoelectric and magnetoelectric response of CoFe2O4/P(VDF-TrFE) nanocomposites Appl. Surf. Sci. 313 215-9
6. Martins P, Lopes A C and Lanceros-Mendez S 2013 Electroactive phases of poly(vinylidene fluoride): determination, processing and applications Prog. Polym. Sci. 39 683-706
7. Chen Z, Christensen L and Dahn J R 2003 Comparison of PVDF and PVDF-TFE-P as binders for electrode materials showing large volume changes in Lithium-Ion batteries J. Electrochem. Soc. 150 A1073-8
8. Fett T et al 1998 Nonsymmetry in the deformation behaviour of PZT J. Mater. Sci. Lett. 17 261-5
9. Solvay, Solef & Hylar PVDF Polyvinylidene fluoride: Design and Processing Guide (www.equflow.com/sites/default/files/bijlagen/bestanden/solef-hylar-2009.pdf)
10. Okayasu M, Aoki S and Mizuno M 2008 Effects of silver-based metal electroplate on fatigue properties of PZT ceramics Int. J. Fatigue 30 1115-24
11. Scott J F 2012 Applications of magnetoelectrics J. Mater. Chem. 22 4567-74
12. Beeby S P, Tudor M J and White N M 2006 Energy harvesting vibration sources for microsystems applications Meas. Sci. Technol. 17 R175-95
13. Bian L et al 2009 Magnetoelectric transducer with high quality factor for wireless power receiving Sens. Actuators A 150 207-11
14. Li P et al 2010 A magnetoelectric energy harvester and management circuit for wireless sensor network Sens. Actuators A 157 100-6
15. Yang J et al 2011 A new vibration energy harvester using magnetoelectric transducer J. Magnetics 16 150-6
16. Ju S et al 2013 A low frequency vibration energy harvester using magnetoelectric laminate composite Smart Mater. Struct. 22 115037
17. Priya S and Inman D J 2008 Energy Harvesting Technologies (New York: Springer) p 524
18. Qi Y et al 2010 Piezoelectric ribbons printed onto rubber for flexible energy conversion Nano Lett. 10 524-8
19. Luborsky F E 1980 Amorphous ferromagnets Handbook of Ferromagnetic Materials ed E P Wohlfarth (Amsterdam: Elsevier) 451-529 ch 6 p
20. Shen Y et al 2014 High non-linear magnetoelectric coefficient in Metglas/PMN-PT laminate composites under zero direct current magnetic bias J. Appl. Phys. 115 094102
21. Lasheras A et al 2014 Radiofrequency magnetoelastic resonators for magnetoelectric applications J. Phys. D: Appl. Phys. 47 315003
22. Silva M P et al 2015 Size effects on the magnetoelectric response on PVDF/Vitrovac 4040 laminate composites J. Magn. Magn. Mater. 377 29-33
23. Rocha J G 2007 Díodos e Transistores Bipolares - Teoria e Aplicações ed Netmove (Porto: Netmove Comunicação Global) 347
24. Rocha J G et al 2010 Energy harvesting from piezoelectric materials fully integrated in footwear IEEE Trans. Ind. Electron. 57 813-9
25. Onuta T D et al 2011 Energy harvesting properties of all-thin-film multiferroic cantilevers Appl. Phys. Lett. 99 203506
26. Vatansever D et al 2011 An investigation of energy harvesting from renewable sources with PVDF and PZT Smart Mater. Struct. 20 055019
27. Priya S 2005 Modeling of electric energy harvesting using piezoelectric windmill Appl. Phys. Lett. 87 184101
28. Shih Y C, Shen T and Otis B P 2011 A 2.3 μ W wireless intraocular pressure/temperature monitor IEEE J. Solid-State Circuits 46 2592-601
29. Yang F et al 2008 Resonant magnetoelectric response of magnetostrictive/piezoelectric laminate composite in consideration of losses Sens. Actuators A 141 129-35
30. Measurement Specialties, Inc. Piezofilm Sensors. Technical Manual (www.sparkfun.com/datasheets/Sensors/Flex/MSI-techman.pdf)
31. Electric and Magnetic Fields associated with the use of electric power 2012 National Institute of Environmental Health Sciences and the National Insitute of Health (www.niehs.nih.gov/health/assets/docs-p-z/results-of-emf-research-emf-questions-answers-booklet.pdf)
32. Health and Electromagnetic Fields 2005 European Commission - Research Directorate-General - European Communities (http://ec.europa.eu/health/archive/ph-determinants/environment/emf/brochure-en.pdf)
33. Report on the level of exposure (frequency, patterns and modulation) in the European Union Part 1: Radiofrequency (RF) radiation 2010 European Health Risk Assessment Network on Electromagnetic Fields Exposure (http://efhran.polimi.it/docs/D4-Report%20on%20the%20level%20of%20exposure%20in%20the%20European%20Union-Oct2010.pdf)