A MEMS electret generator with electrostatic levitation for vibration-driven energy-harvesting applications

Suzuki, Yuji; Miki, Daigo; Edamoto, M.; Honzumi, Makoto

doi:10.1088/0960-1317/20/10/104002

Cited by 271 publications

(165 citation statements)

References 20 publications

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“…Electrostatic conversion requires initial charges on the electrodes. Electret-based harvesters [25] provide a solution, in which the material is only charged once during fabrication with a high voltage, but the capacity of harvesting energy is still limited by the magnitude of capacitance that can be achieved and by the charge density of electrets. Electromagnetic transduction uses the relative motion between coils and magnets.…”

Section: Introductionmentioning

confidence: 99%

A methodology for low-speed broadband rotational energy harvesting using piezoelectric transduction and frequency up-conversion

Yeatman

2017

Energy

181

107

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Section: Introductionmentioning

confidence: 99%

A methodology for low-speed broadband rotational energy harvesting using piezoelectric transduction and frequency up-conversion

Yeatman

2017

Energy

181

107

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“…While it is quite easy to pattern organic electrets [4,9], the same action on inorganic materials is much more difficult …”

Section: New Electret Patterning Solutionmentioning

confidence: 99%

New DRIE-Patterned Electrets for Vibration Energy Harvesting

Boisseau

Duret

Chaillout

et al. 2012

EPJ Web of Conferences

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Abstract. This paper is about a new manufacturing process aimed at developing stable SiO 2 /Si 3 N 4 patterned electrets using a Deep Reactive Ion Etching (DRIE) step for an application in electret-based Vibration Energy Harvesters (e-VEH). This process consists in forming continuous layers of SiO 2 /Si 3 N 4 electrets in order to limit surface conduction phenomena and is a new way to see the problem of electret patterning. Experimental results prove that patterned electrets charged by a positive corona discharge show excellent stability with high surface charge densities that may reach 5mC/m² on 1.1µm-thick layers, even with fine patterning and harsh temperature conditions (up to 250°C). This paves the way to new e-VEH designs and manufacturing processes.

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“…[1][2][3][4] The main transduction mechanisms can be divided in three groups: electromagnetic, 5 electrostatic, 6 and piezoelectric. [7][8][9] Among these transduction mechanisms, the piezoelectric transduction has attracted the most interest due to its high power density and simple structure.…”

Section: Introductionmentioning

confidence: 99%

A piezoelectric energy harvester for broadband rotational excitation using buckled beam

et al. 2018

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An integrated multi-source energy harvester based on vibration and magnetic field energy AIP Advances 8, 056623 (2018) This paper proposes a rotational energy harvester using a piezoelectric bistable buckled beam to harvest low-speed rotational energy. The proposed harvester consists of a piezoelectric buckled beam with a center magnet, and a rotary magnet pair with opposite magnetic poles mounted on a revolving host. The magnetic plucking is used to harvest the angular kinetic energy of the host. The nonlinear snap-through mechanism is utilized to improve the vibration displacement and output voltage of the piezoelectric layer over a wide rotation frequency range. Theoretical simulation and experimental results show that the proposed energy harvester can yield a stable average output power ranging between 6.91-48.01 µW over a rotation frequency range of 1-14 Hz across a resistance load of 110 kΩ. Furthermore, dual attraction magnets were employed to overcome the suppression phenomenon at higher frequencies, which yields a broadband and flat frequency response over 6-14 Hz with the output power reaching 42.

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A MEMS electret generator with electrostatic levitation for vibration-driven energy-harvesting applications

Cited by 271 publications

References 20 publications

A methodology for low-speed broadband rotational energy harvesting using piezoelectric transduction and frequency up-conversion

A methodology for low-speed broadband rotational energy harvesting using piezoelectric transduction and frequency up-conversion

New DRIE-Patterned Electrets for Vibration Energy Harvesting

A piezoelectric energy harvester for broadband rotational excitation using buckled beam

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