Rchr
J-GLOBAL ID:201501042905086979   Update date: Feb. 28, 2024

Namura Kyoko

ナムラ キョウコ | Namura Kyoko
Affiliation and department:
Job title: Associate Professor
Research field  (2): Fluid engineering ,  Thin-film surfaces and interfaces
Research theme for competitive and other funds  (8):
  • 2021 - 2028 バブルアレイのマイクロ・ナノ構造化による新規熱輸送技術の創出
  • 2021 - 2024 局所加熱下の蒸気バブル挙動解明と新規マイクロ物体駆動技術の創出
  • 2019 - 2021 Efficient photocatalytic reactions utilizing vapor bubble formation under sunlight irradiation
  • 2017 - 2020 Generation and control of singularities in viscous flow by photothermal conversion at liquid/nanostructured solid surfaces
  • 2017 - 2020 Investigation of the influence of microbubble and Marangoni flow on heat transfer efficiency in the microscale cooling devices
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Papers (51):
  • Xuanwei Zhang, Kyoko Namura, Motofumi Suzuki. β-FeSi2: A high refractive index candidate material for infrared bandpass filters. Journal of Applied Physics. 2023
  • Kyoko Namura, Ryoma Sakanai, Yasushi Kojima, Motofumi Suzuki. Microfluidic mixing on plasmonic nanostructures. Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XXI. 2023. 12648. 1264807
  • Kyoko Namura, Tasuku Okuno, Motofumi Suzuki. Generation of water vapor microbubbles on optical fiber tips. Optical Manipulation and Structured Materials Conference. 2023. 12606. 1260616
  • Takao Fukuoka, Toshiya Yasunaga, Kyoko Namura, Motofumi Suzuki, Akinobu Yamaguchi. Plasmonic Nanotags for On-Dose Authentication of Medical Tablets. Advanced Materials Interfaces. 2023
  • 名村 今日子, 鈴木 基史. 光熱誘起マイクロバブルを利用した擬似ストークスレットの生成. ながれ : 日本流体力学会誌 = Nagare : journal of Japan Society of Fluid Mechanics. 2023. 42. 1. 23-28
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MISC (11):
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Lectures and oral presentations  (48):
  • Microfluidic mixing on plasmonic nanostructures
    (SPIE Optics & Photonics 2023)
  • Thermo-Fluid Phenomena Controlled by Photothermally Induced Microbubbles
    (2023)
  • Microfluidic control using microbubbles photothermally induced on micro/nano structured thin films
    (2023)
  • Collective motion of water vapor microbubbles investigated by thermoplasmonic effect
    (SPIE Optics & Photonics 2022)
  • Application of self-assembled plasmonic structures for microfluidic control and sensing
    (SPIE Optics+Photonics 2020 2020)
more...
Work history (3):
  • 2022/06 - 現在 Kyoto University Associate Professor
  • 2015/04 - 2022/05 Kyoto University Assistant Professor
  • 2012/04/01 - Japan Society for the Promotion of Science J S P S research fellow DC1
Association Membership(s) (3):
The International Society for Optical Engineering ,  The Japan Society of Vacuum and Surface Science ,  The Japan Society of Applied Physics
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