DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY HARVESTING
Research into energy harvesting from ambient vibration sources has attracted great interest over the last few years, largely due to the rapid development in the areas of wireless technology and low power electronics. One of the mechanisms for converting mechanical vibration to electrical energy is...
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my.utem.eprints.41602015-05-28T02:40:10Z http://eprints.utem.edu.my/id/eprint/4160/ DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY HARVESTING Kok, Swee Leong White, Neil Harris, Nick TK Electrical engineering. Electronics Nuclear engineering Research into energy harvesting from ambient vibration sources has attracted great interest over the last few years, largely due to the rapid development in the areas of wireless technology and low power electronics. One of the mechanisms for converting mechanical vibration to electrical energy is the use of piezoelectric materials, typically operating as a cantilever in a bending mode, which generate a voltage across the electrodes when they are stressed. Traditionally, the piezoelectric materials are deposited on a non-electro-active substrate and are physically clamped at one end to a rigid base, which serves as a mechanical supporting platform. In this research, a three dimensional thick-film structure in the form of a free-standing cantilever incorporated with piezoelectric materials is proposed. The advantages of this structure include minimising the movement constraints on the piezoelectric, thereby maximising the electrical output and offering the ability for integration with other microelectronic devices. A series of free-standing composite cantilevers in the form of unimorphs were fabricated and characterised for their mechanical and electric properties. The unimorph structure consists of a pair of silver/palladium (Ag/Pd) electrodes sandwiching a laminar layer of lead zirconate titanate (PZT). An extended version of this unimorph, in the form of multimorph was fabricated to improve the electrical output performance, by increasing the distance of the piezoelectric layer from the neutral axis of the structure. This research also discusses the possibility of using an array of free-standing cantilevers in harvesting vibration energy in a broader bandwidth from an unpredictable ambient environment. LAP LAMBERT Academic Publishing 2011-05 Book PeerReviewed application/pdf en http://eprints.utem.edu.my/id/eprint/4160/1/Design%2C_Fabrication_and_Characterisation_of_Free-Standing_Thick-Film_Piezoelectric_Cantilevers_for_Energy_Harvesting..pdf Kok, Swee Leong and White, Neil and Harris, Nick (2011) DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY HARVESTING. LAP LAMBERT Academic Publishing, Germany. ISBN 978-3-8443-8969-2 |
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TK Electrical engineering. Electronics Nuclear engineering Kok, Swee Leong White, Neil Harris, Nick DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY HARVESTING |
| description |
Research into energy harvesting from ambient vibration sources has attracted great interest over the last few years, largely due to the rapid development in the areas of wireless technology and low power electronics. One of the mechanisms for converting mechanical vibration to electrical
energy is the use of piezoelectric materials, typically operating as a cantilever in a bending mode, which generate a voltage across the electrodes when they are stressed. Traditionally, the piezoelectric materials are deposited on a non-electro-active substrate and are physically clamped at one end to a rigid base, which serves as a mechanical supporting platform. In this research, a three dimensional thick-film structure in the form of a free-standing cantilever incorporated with piezoelectric materials is proposed. The advantages of this structure include
minimising the movement constraints on the piezoelectric, thereby maximising the electrical output and offering the ability for integration with other microelectronic devices. A series of free-standing composite cantilevers in the form of unimorphs were fabricated and characterised for their mechanical and electric properties. The unimorph structure consists of a pair of silver/palladium (Ag/Pd) electrodes sandwiching a laminar layer of lead zirconate titanate (PZT). An extended version of this unimorph, in the form of multimorph was fabricated to improve the electrical output performance, by increasing the distance of the piezoelectric layer from the neutral axis of the structure. This research also discusses the possibility of using an array of free-standing cantilevers in harvesting vibration energy in a broader bandwidth from an unpredictable ambient environment. |
| format |
Book |
| author |
Kok, Swee Leong White, Neil Harris, Nick |
| author_facet |
Kok, Swee Leong White, Neil Harris, Nick |
| author_sort |
Kok, Swee Leong |
| title |
DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING
THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY
HARVESTING |
| title_short |
DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING
THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY
HARVESTING |
| title_full |
DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING
THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY
HARVESTING |
| title_fullStr |
DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING
THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY
HARVESTING |
| title_full_unstemmed |
DESIGN, FABRICATION AND CHARACTERISATION OF FREE-STANDING
THICK-FILM PIEZOELECTRIC CANTILEVERS FOR ENERGY
HARVESTING |
| title_sort |
design, fabrication and characterisation of free-standing
thick-film piezoelectric cantilevers for energy
harvesting |
| publisher |
LAP LAMBERT Academic Publishing |
| publishDate |
2011 |
| url |
http://eprints.utem.edu.my/id/eprint/4160/1/Design%2C_Fabrication_and_Characterisation_of_Free-Standing_Thick-Film_Piezoelectric_Cantilevers_for_Energy_Harvesting..pdf http://eprints.utem.edu.my/id/eprint/4160/ |
| _version_ |
1665905273290620928 |