Shuichiro Hashimoto
Waseda University
15 Papers
43 Citations
Shuichiro Hashimoto is an academic researcher from Waseda University. The author has contributed to research in topics: Thermoelectric generator & Thermoelectric effect. The author has an hindex of 6, co-authored 15 publications.
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Papers
Modeling, Simulation, Fabrication, and Characterization of a 10- $\mu$ W/cm 2 Class Si-Nanowire Thermoelectric Generator for IoT Applications
Motohiro Tomita,Shunsuke Oba,Yuya Himeda,Ryo Yamato,Keisuke Shima,Takehiro Kumada,Mao Xu,Hiroki Takezawa,Kohhei Mesaki,Kazuaki Tsuda,Shuichiro Hashimoto,Tianzhuo Zhan,H. Zhang,Yoshinari Kamakura,Yuhhei Suzuki,Hiroshi Inokawa,Hiroya Ikeda,Takashi Matsukawa,Takeo Matsuki,Takanobu Watanabe +19 more
TL;DR: In this article, a planar short Si-nanowire thermoelectric (TE) power generator is proposed, driven by a temperature gradient that is formed in the proximity of a perpendicular heat flow to the substrate.
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The Possibility of mW/cm 2 -Class On-Chip Power Generation Using Ultrasmall Si Nanowire-Based Thermoelectric Generators
TL;DR: In this article, a planar silicon nanowire (SiNW)-based thermoelectric generators (TEGs) is presented, which has the ability to sustain temperature difference along SiNW under ultrashort channel length for achieving mW/cm2-class power output from environmental heat energy.
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A scalable Si-based micro thermoelectric generator
Takanobu Watanabe,Shuhei Asada,Taiyu Xu,Shuichiro Hashimoto,Shunsuke Ohba,Yuya Himeda,Ryo Yamato,Hui Zhang,Motohiro Tomita,Takashi Matsukawa,Yoshinari Kamakura,Hiroya Ikeda +11 more
- 13 Jun 2017
TL;DR: In this article, a new device architecture of micro thermoelectric generator (μ-TEG) is proposed, which is driven by an evanescent thermal field exuding around a heat flow perpendicular to the substrate.
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10μW/cm 2 -Class High Power Density Planar Si-Nanowire Thermoelectric Energy Harvester Compatible with CMOS-VLSI Technology
Motohiro Tomita,Shunsuke Oba,Yuya Himeda,Ryo Yamato,Keisuke Shima,Takehiro Kumada,Mao Xu,Hiroki Takezawa,Kohei Mesaki,Kazuaki Tsuda,Shuichiro Hashimoto,Tianzhuo Zhan,H. Zhang,Yoshinari Kamakura,Yuhei Suzuki,Hiroshi Inokawa,Hiroya Ikeda,Takashi Matsukawa,Takeo Matsuki,Takanobu Watanabe +19 more
- 18 Jun 2018
TL;DR: In this article, a best Si-nanowire (NW) thermoelectric (TE) power generator has been achieved by a planar device architecture compatible with CMOS process technology.
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Evaluation of laterally graded silicon germanium wires for thermoelectric devices fabricated by rapid melting growth
Ryo Yokogawa,Ryo Yokogawa,Shuichiro Hashimoto,Kouta Takahashi,Kouta Takahashi,Shunsuke Oba,Motohiro Tomita,Masashi Kurosawa,Takanobu Watanabe,Atsushi Ogura +9 more
- 20 Jul 2018
TL;DR: In this paper, the structure evaluation of the RMG laterally graded SiGe wire were performed by Raman spectroscopy and electron backscattering pattern (EBSP) Ge fraction x and strain were estimated from one-dimensional distribution of Raman shift for Ge-Ge mode.
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