Rchr
J-GLOBAL ID:201801004533001878   Update date: Oct. 04, 2024

Fujio Yuki

Fujio Yuki
Affiliation and department:
National Institute of Advanced Industrial Science and Technology

About National Institute of Advanced Industrial Science and Technology


Research field  (1): Inorganic materials
Research theme for competitive and other funds  (10):
  • 2022 - 2025 世界最小静電気発光センサによる可視化センシング技術の創成
  • 2022 - 2025 Development of self-driven nano light sources that control photochemical reaction fields
  • 2022 - 2025 Development of self-driven nano light sources that control photochemical reaction fields
  • 2022 - 2025 世界最小静電気発光センサによる可視化センシング技術の創成
  • 2020 - 2022 多波長応力発光体の創製と明環境4Dセンシング技術の開発
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Papers (59):
  • Nao Terasaki, Yuki Fujio, Kazumasa Shimamoto, Haruhisa Akiyama, Shin Horiuchi. Mechanoluminescent visualization for considering effect of bondline thickness and overlap length on single lap joint. International Journal of Adhesion and Adhesives. 2024. 134
  • Soichiro Kawana, Kenji Hirata, Yuki Fujio, Tomoki Uchiyama, Chao-Nan Xu. First-Principles Calculation of Elastic Properties in LixZn1-xO:Nd3+ Mechanoluminescence Material. Advanced Theory and Simulations. 2024
  • Tomoki Uchiyama, Taisei Atsumi, Koki Otonari, Yuki Fujio, Xu-Guang Zheng, Chao-Nan Xu. Direct recording and reading of mechanical force by afterglow evaluation of multi-piezo mechanoluminescent material Li0.12Na0.88NbO3 on well-designed morphotropic phase boundary. Applied Physics Letters. 2024. 124. 17
  • Nao Terasaki, Yuki Fujio, Yoshitaro Sakata, Keiji Houjou, Kazumasa Shimamoto, Haruhisa Akiyama, Kiyoshi Yase, Shin Horiuchi, Sven Hartwig, Julian Steinberg, et al. Effect of laser pre-treatment on adhesive joint performance and evaluation of interfacial strain distribution using mechanoluminescence. Journal of Adhesion. 2024
  • Sri Ayu Anggraini, Yuki Fujio, Hiroshi Ikeda. Potentiometric-Type Gas Sensor Using MgFe2O4 Sensing Electrode for Detection of Hydrocarbon Based on Carbon Number. ACS Sensors. 2023. 8. 7. 2514-2518
more...
MISC (34):
  • 久冨 茂樹, 藤尾 侑輝, 川名 惣一朗. 応力発光技術を用いた積層造形物の応力分布評価-Stress distribution evaluation of 3D printing objects by mechanoluminescence technique. 岐阜県産業技術総合センター研究報告 = Report of Gifu Prefectural Industrial Technology Center / 岐阜県産業技術総合センター 編. 2023. 5. 10-12
  • 藤尾侑輝. さまざまなセンサの新技術 1)応力発光によるひずみ分布可視化技術. クリーンテクノロジー. 2023. 33. 1. 5-9
  • 藤尾 侑輝. 若手研究者の挑戦(第78回)力を光に変換 : 応力発光を用いた応力分布可視化技術-Mechano-Optical Conversion : Visualization of Stress Distribution by Mechanoluminescence. Optronics : 光技術コーディネートジャーナル. 2022. 41. 7. 150-154
  • 藤尾侑輝. Mechano-Optical Conversion: Visualization of Stress Distribution by Mechanoluminescence. Optronics. 2022. 7. 487. 150-154
  • Terasaki Nao, Fujio Yuki. Mechanoluminescence visualization on destruction process of single lap adhesive joint. JSAP Annual Meetings Extended Abstracts. 2021. 2021.2. 392-392
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Patents (15):
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