Assistant professor, Waseda University, Japan
Dr. Shingo Terashima is an Assistant Professor at Waseda University, Japan, specializing in thermoelectric power generation and fluid engineering. He earned his Ph.D. in Engineering from Nagasaki University in 2017. Since 2020, he has been engaged in innovative research in flexible thermoelectric devices at Waseda University. Dr. Terashima’s work has significantly advanced the development of high-aspect-ratio microneedles and kirigami-type thermoelectric generators, with a strong focus on optimizing energy conversion efficiency and mechanical durability for wearable devices. 🔬⚡
Publication Profile
Scopus
Education
Dr. Shingo Terashima completed his Ph.D. in Engineering from Nagasaki University, Japan, in 2017, followed by postdoctoral research at Kansai University, where he honed his expertise in nanoimprint technology and microneedle fabrication. 📚🎓
Experience
Dr. Terashima’s academic career spans from his postdoctoral research at Kansai University (2017-2020) to his current role as an Assistant Professor at Waseda University, where he leads research into flexible thermoelectric devices and precision engineering. His innovative contributions have led to the development of various microneedles and kirigami-based structures. 💼🔧
Awards and Honors
Dr. Terashima’s research excellence has earned him recognition in the form of numerous publications in prestigious journals and conferences. He has been awarded patents for his innovative work in thermoelectric power generation and microneedle fabrication, contributing significantly to advancements in engineering. 🏆📜
Research Focus
Dr. Terashima’s primary research focus includes microneedles, thermoelectric power generation, and origami/kirigami engineering. His work aims to enhance the flexibility, stretchability, and energy conversion efficiency of thermoelectric generators, making them ideal for wearable and self-powered applications. 🔍⚙️
Conclusion
With a remarkable track record of research and innovation, Dr. Shingo Terashima continues to push the boundaries of flexible and efficient thermoelectric systems. His work paves the way for the development of next-generation energy-harvesting technologies for diverse applications. 🌱🚀
Publications
Output Characteristics of Carbon Nanotube Thermoelectric Generator with Slitted Kirigami Structure
Published in Micromachines (2024), 15(8), 1015
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Cited by: 0
Output Characteristics on Kirigami Thermoelectric Generator by Three-Dimensional Deformation and Geometric Shapes
Published in 22nd International Conference on Solid-State Sensors, Actuators and Microsystems, Transducers 2023 (2023), pp. 49–52
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Cited by: 0
Origami-Type Flexible Thermoelectric Generator Fabricated by Self-Folding
Published in Micromachines (2023), 14(1), 218
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Cited by: 5
Kirigami Thermoelectric Generator with High Flexibility and High Performance
Published in Proceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS) (2022), pp. 612–615
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Cited by: 2
Origami-Type Flexible Thermoelectric Generator Fabricated by Self-Folding Using Linkage Mechanism
Published in Proceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS) (2022), pp. 31–34
Link to article
Cited by: 3
Flexible Thermoelectric Generator Using Kirigami-Folding Structure
Published in 21st International Conference on Solid-State Sensors, Actuators and Microsystems, TRANSDUCERS 2021 (2021), pp. 467–470
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Cited by: 2
Proposal of a three-stage hair structure imitating the sole of gecko foot and its fabrication by UV nanoimprinting
Published in Precision Engineering (2021), 67, pp. 359–369
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Cited by: 6
Twice Stretched Fabrication of Polylactic Acid Microneedle Arrays Using Drawing Lithography
Published in International Journal of Precision Engineering and Manufacturing (2020), 21(10), pp. 1933–1942
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Cited by: 8
Fabrication of Hyaluronic Acid Hollow Microneedle Array
Published in Japanese Journal of Applied Physics (2020), 59(SI), SIIJ03
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Cited by: 11
Fabrication of Microneedle Using Poly Lactic Acid Sheets by Thermal Nanoimprint
Published in Precision Engineering (2019), 59, pp. 110–119
Link to article
Cited by: 11