Y. Naito scite author profile

Y. Naito

5Publications

93Citation Statements Received

62Citation Statements Given

How they've been cited

152

How they cite others

112

Affiliations

Panasonic (Japan), Tokyo Institute of Technology, Futaba (Japan)

Publications

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Electrostatic MEMS Vibration Energy Harvesters inside of Tire Treads

Naito

Uenishi

2019

Sensors

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An electret electrostatic MEMS vibration energy harvester for tire sensors mounted inside of the tire tread is reported. The device was designed so as to linearly change an electrostatic capacitance between the corrugated electret and output electrode according to the displacement of the proof mass. The electromechanical linearity was effective at reducing the power loss. The output power reached 495 μW under sinusoidal vibration despite the footprint size being as small as 1 cm2. Under impact vibration inside of the tire tread, the output power reached 60 μW at a traveling speed of 60 km/h. It was revealed that a higher mechanical resonance frequency of the harvester adjusted within the frequency band of a low-power spectral density of impact vibration acceleration was effective for high efficiency harvest impact vibration energy.

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Magnetically Promoted Rapid Immunoreactions Using Functionalized Fluorescent Magnetic Beads: A Proof of Principle

Sakamoto

Omagari

Kita

et al. 2014

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High-Q torsional mode Si triangular beam resonators encapsulated using SiGe thin film

Naito

Hélin

Nakamura

et al. 2010

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A high performance electrostatic MEMS vibration energy harvester with corrugated inorganic SiO<inf>2</inf>-Si<inf>3</inf>N<inf>4</inf> electret

Renaud

Altena

Goedbloed

et al. 2013

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Elastic inhomogeneity and anomalous thermal transport in ultrafine Si phononic crystals

et al. 2020

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Y. Naito

Electrostatic MEMS Vibration Energy Harvesters inside of Tire Treads

Magnetically Promoted Rapid Immunoreactions Using Functionalized Fluorescent Magnetic Beads: A Proof of Principle

High-Q torsional mode Si triangular beam resonators encapsulated using SiGe thin film

A high performance electrostatic MEMS vibration energy harvester with corrugated inorganic SiO<inf>2</inf>-Si<inf>3</inf>N<inf>4</inf> electret

Elastic inhomogeneity and anomalous thermal transport in ultrafine Si phononic crystals

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