Researchers Information System

日本語に切り替えるswitch to english

Namura, Kyoko

Graduate School of Engineering, Division of Micro Engineering Associate Professor

Namura, Kyoko
list
    Last Updated :2024/06/25

    Basic Information

    Faculty

    • Faculty of Engineering

    Professional Memberships

    • The International Society for Optical Engineering
    • The Japan Society of Vacuum and Surface Science
    • The Japan Society of Applied Physics

    Academic Degree

    • 修士(工学)(京都大学)
    • 博士(工学)(京都大学)

    Research History

    • From Jun. 2022, To Present
      Kyoto University, Associate Professor
    • From Apr. 2015, To May 2022
      Kyoto University, Assistant Professor
    • From 01 Apr. 2012
      Japan Society for the Promotion of Science, J S P S research fellow DC1

    Profile

    • Profile

      She studies photo-thermal and photo-acoustic conversion properties of nano-structured thin films. Especially, she is now interested in microfluidic control using photo-thermally induced temperature gradient.

    ID,URL

    researchmap URL

    list
      Last Updated :2024/06/25

      Research

      Research Areas

      • Manufacturing technology (mechanical, electrical/electronic, chemical engineering), Fluid engineering
      • Nanotechnology/Materials, Thin-film surfaces and interfaces

      Papers

      • Microfluidic mixing on plasmonic nanostructures
        Kyoko Namura; Ryoma Sakanai; Yasushi Kojima; Motofumi Suzuki
        Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XXI, 05 Oct. 2023, Peer-reviewed
      • Generation of water vapor microbubbles on optical fiber tips
        Kyoko Namura; Tasuku Okuno; Motofumi Suzuki
        Optical Manipulation and Structured Materials Conference, 20 Sep. 2023, Peer-reviewed
      • Investigation of the collective motion of water vapor microbubbles by thermoplasmonic effect
        Kyoko Namura; Shuji Kondo; Motofumi Suzuki
        Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XX, 03 Oct. 2022, Peer-reviewed
      • β-FeSi2: A high refractive index candidate material for infrared bandpass filters
        Xuanwei Zhang; Kyoko Namura; Motofumi Suzuki
        Journal of Applied Physics, 14 Nov. 2023
      • 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
        名村 今日子; 鈴木 基史
        ながれ : 日本流体力学会誌 = Nagare : journal of Japan Society of Fluid Mechanics, Feb. 2023, Peer-reviewed
      • プラズモニック・ナノタグによる偽造防止技術とその応用
        山口 明啓; 内海 裕一; 安永 峻也; 名村 今日子; 鈴木 基史; 福岡 隆夫
        「センサ・マイクロマシンと応用システム」シンポジウム論文集 電気学会センサ・マイクロマシン部門 [編], Nov. 2022
      • Plasmonic Nanotags for On‐Dose Authentication of Medical Tablets
        Takao Fukuoka; Toshiya Yasunaga; Kyoko Namura; Motofumi Suzuki; Akinobu Yamaguchi
        Advanced Materials Interfaces, 22 Jun. 2023
      • Co-sputterによるβ-FeSi2薄膜の組成と光学特性の制御に関する研究
        Zhang Xuanwei; Kumar Samir; 名村 今日子; 鈴木 基史
        表面と真空, Sep. 2021, Peer-reviewed
      • Gold Micropetals Self‐Assembled by Shadow‐Sphere Lithography for Optofluidic Control
        Kyoko Namura; Shunya Hanai; Shuji Kondo; Samir Kumar; Motofumi Suzuki
        Advanced Materials Interfaces, Jun. 2022
      • Study on transport of molecules in gel by surface-enhanced Raman spectroscopy
        Samir Kumar; Taiga Taneichi; Takao Fukuoka; Kyoko Namura; Motofumi Suzuki
        Cellulose, Nov. 2021
      • Physically unclonable functions taggant for universal steganographic prints
        Takao Fukuoka; Yasushige Mori; Toshiya Yasunaga; Kyoko Namura; Motofumi Suzuki; Akinobu Yamaguchi
        Scientific Reports, Dec. 2022
      • Control of solar-absorbing and infrared-emitting properties with FeSi2 thin film
        Masunaka Shoma; Nishiura Kensuke; Namura Kyoko; Suzuki Motofumi
        Abstract of annual meeting of the Surface Science of Japan, 2015
      • Highly stable and reproducible Au nanorod arrays for near-infrared optofluidic SERS sensor
        Samir Kumar; Takao Fukuoka; Ryo Takahashi; Mitsuhiro Yoshida; Yuchi Utsumi; Akinobu Yamaguchi; Kyoko Namura; Motofumi Suzuki
        Materials Letters, Mar. 2021, Peer-reviewed
      • Thermochromic visualization of the heated region around a microbubble during Marangoni flow generation
        Kyoko Namura; Toshiki Sono; Samir Kumar; Kaoru Nakajima; Motofumi Suzuki
        Journal of Nanophotonics, 18 Feb. 2021, Peer-reviewed
      • Water droplet bouncing on a non-superhydrophobic Si nanospring array
        Samir Kumar; Kyoko Namura; Motofumi Suzuki; Jitendra P. Singh
        Nanoscale Advances, 2021, Peer-reviewed
      • Multilayer thin-film flake dispersion gel for surface-enhanced Raman spectroscopy
        Samir Kumar; Misa Kanagawa; Kyoko Namura; Takao Fukuoka; Motofumi Suzuki
        Applied Nanoscience, 06 Oct. 2020, Peer-reviewed
      • Self‐Oscillation of Locally Heated Water Vapor Microbubbles in Degassed Water
        Kyoko Namura; Shunsuke Okai; Samir Kumar; Kaoru Nakajima; Motofumi Suzuki
        Advanced Materials Interfaces, 02 Sep. 2020, Peer-reviewed
      • Manipulation of mica flakes using photothermally generated microbubbles
        Kyoko Namura; Ryuta Matsumura; Samir Kumar; Motofumi Suzuki
        Optical Manipulation and Structured Materials Conference 2020, 15 Jun. 2020, Peer-reviewed
      • Suppression of photothermal convection using silicon carbide substrates for optofluidics experiments
        Ya-Tang Yang; Kyoko Namura; Meng-Chia Tsai; Motofumi Suzuki
        Results in Engineering, Jun. 2020, Peer-reviewed
      • Plasmonic Nanoslit Arrays Fabricated by Serial Bideposition: Optical and Surface-Enhanced Raman Scattering Study
        Samir Kumar; Yusuke Doi; Kyoko Namura; Motofumi Suzuki
        ACS Applied Bio Materials, 18 May 2020, Peer-reviewed
      • Effects of the dissolved gases in water on microbubble oscillation under photothermal heating
        Nao Hiroshige; Shunsuke Okai; Kyoko Namura; Motofumi Suzuki
        Laser-based Micro- and Nanoprocessing XIV, 02 Mar. 2020, Peer-reviewed
      • 空間光制御による複数の熱・応力源の同時生成とその応用 (液晶空間光制御素子の進展と応用展開)
        坂倉 政明; 名村 今日子
        光学 = Japanese journal of optics : publication of the Optical Society of Japan, Mar. 2020, Peer-reviewed
      • Application of self-assembled plasmonic structures for microfluidic control and sensing
        Kyoko Namura; Samir Kumar; Motofumi Suzuki
        Proceedings of SPIE - The International Society for Optical Engineering, 2020
      • Experimental Evidence of Two-fold Electromagnetic Enhancement Mechanism of Surface-Enhanced Raman Scattering
        Samir Kumar; Kouta Tokunaga; Kyoko Namura; Takao Fukuoka; Motofumi Suzuki
        J. Phys. Chem. C, 2020, Peer-reviewed
      • Marangoni Convection around a Micro Bubble Attached to Locally Heated Channel Wall
        Kazuya Tatsumi; Takaya Atsumi; Kyoko Namura; Reiko Kuriyama; Motofumi Suzuki; Kazuyoshi Nakabe
        Heat Transfer Research, 2020, Peer-reviewed
      • Highly reproducible, large scale inkjet-printed Ag nanoparticles-ink SERS substrate
        Samir Kumar; Kyoko Namura; Daisuke Kumaki; Shizuo Tokito; Motofumi Suzuki
        Results in Materials, 2020, Peer-reviewed
      • Direction control of quasi-stokeslet induced by thermoplasmonic heating of a water vapor microbubble
        Kyoko Namura; Souki Imafuku; Samir Kumar; Kaoru Nakajima; Masaaki Sakakura; Motofumi Suzuki
        SCIENTIFIC REPORTS, Mar. 2019, Peer-reviewed
      • Proposal for a gel-based SERS sensor
        Samir Kumar; Kyoko Namura; Motofumi Suzuki
        PLASMONICS IN BIOLOGY AND MEDICINE XVI, 2019, Peer-reviewed
      • Thermoplasmonics for investigation of microbubble dynamics in degassed water
        Kyoko Namura; Yusaku Shimada; Shunsuke Okai; Samir Kumar; Motofumi Suzuki
        PLASMONICS: DESIGN, MATERIALS, FABRICATION, CHARACTERIZATION, AND APPLICATIONS XVII, 2019, Peer-reviewed
      • 熱プラズモニック効果を用いた微小気泡の生成とその周辺に発生する対流の制御 (光・量子デバイス研究会・医療・バイオ応用を目指したナノ加工)
        名村 今日子
        電気学会研究会資料. OQD = The papers of technical meeting on optical and quantum devices, IEE Japan, Dec. 2018, Peer-reviewed
      • Demonstration of temperature-plateau superheated liquid by photothermal conversion of plasmonic titanium nitride nanostructures
        Satoshi Ishii; Ryosuke Kamakura; Hiroyuki Sakamoto; Thang D. Dao; Satish L. Shinde; Tadaaki Nagao; Koji Fujita; Kyoko Namura; Motofumi Suzuki; Shunsuke Murai; Katsuhisa Tanaka
        NANOSCALE, Oct. 2018, Peer-reviewed
      • 水蒸気マイクロバブルを使った少量流体の攪拌 : 金ナノ粒子薄膜へのレーザ照射による局所熱発生の応用
        名村 今日子; 鈴木 基史
        レーザ加工学会誌 = Journal of Japan Laser Processing Society, Oct. 2018, Peer-reviewed
      • Investigation of transition from thermal- to solutal-Marangoni flow in dilute alcohol/water mixtures using nano-plasmonic heaters
        Kyoko Namura; Kaoru Nakajima; Motofumi Suzuki
        Nanotechnology, 08 Jan. 2018, Peer-reviewed
      • Applications of light-trapping sculptured thin films
        Motofumi Suzuki; Ryosuke Kakuki; Kyoko Namura
        NANOSTRUCTURED THIN FILMS XI, 2018, Peer-reviewed
      • Quasi-stokeslet induced by thermoplasmonic Marangoni effect around a water vapor microbubble
        Kyoko Namura; Kaoru Nakajima; Motofumi Suzuki
        SCIENTIFIC REPORTS, Mar. 2017, Peer-reviewed
      • Application of high refractive index and/or chromogenic layers to control solar and thermal radiations
        Motofumi Suzuki; Kensuke Nishiura; Shoma Masunaka; Naoto Muroi; Kyoko Namura
        Nanostructured Thin Films IX, 26 Sep. 2016, Peer-reviewed
      • Microfluidic control on nanoplasmonic thin films using Marangoni effect
        Kyoko Namura; Kaoru Nakajima; Kenji Kimura; Motofumi Suzuki
        JOURNAL OF NANOPHOTONICS, Jul. 2016, Peer-reviewed
      • Sheathless particle focusing in a microfluidic chamber by using the thermoplasmonic Marangoni effect
        Kyoko Namura; Kaoru Nakajima; Kenji Kimura; Motofumi Suzuki
        APPLIED PHYSICS LETTERS, Feb. 2016, Peer-reviewed
      • Surface-Controlled Metal Oxide Resistive Memory
        Jr-Jian Ke; Kyoko Namura; Jose R. D. Retamal; Chih-Hsiang Ho; Haruhiko Minamitake; Tzu-Chiao Wei; Dung-Sheng Tsai; Chun-Ho Lin; Motofumi Suzuki; Jr-Hau He
        IEEE ELECTRON DEVICE LETTERS, Dec. 2015, Peer-reviewed
      • Photothermally controlled Marangoni flow around a micro bubble
        Kyoko Namura; Kaoru Nakajima; Kenji Kimura; Motofumi Suzuki
        APPLIED PHYSICS LETTERS, Jan. 2015, Peer-reviewed
      • Microfluidic control on nano-plasmonic thin films using Marangoni effect
        Kyoko Namura; Kaoru Nakajima; Kenji Kimura; Motofumi Suzuki
        NANOSTRUCTURED THIN FILMS VIII, 2015, Peer-reviewed
      • Nanostructured copper/porous silicon hybrid systems as efficient sound-emitting devices
        Gonzalo Recio-Sanchez; Kyoko Namura; Motofumi Suzuki; Raul J. Martin-Palma
        NANOSCALE RESEARCH LETTERS, Sep. 2014, Peer-reviewed
      • Enhancement of photoacoustic emission from self-supported plasmonic multilayers
        Kyoko Namura; Kaoru Nakajima; Kenji Kimura; Motofumi Suzuki
        JOURNAL OF APPLIED PHYSICS, Jul. 2014, Peer-reviewed
      • Dispersion relations for coupled surface plasmon-polariton modes excited in multilayer structures
        Hikaru Saito; Kyoko Namura; Motofumi Suzuki; Hiroki Kurata
        MICROSCOPY, Feb. 2014, Peer-reviewed
      • Erratum: Thermochromic VO2 nanorods made by sputter deposition: Growth conditions and optical modeling (Journal of Applied Physics (2013) 114 (033516))
        Shu-Yi Li; Kyoko Namura; Motofumi Suzuki; Gunnar A. Niklasson; Claes G. Granqvist
        Journal of Applied Physics, 21 Dec. 2013, Peer-reviewed
      • Highly localized photothermal conversion in two-dimensional Au nanoparticle arrays
        Kyoko Namura; Motofumi Suzuki; Kaoru Nakajima; Kenji Kimura
        Journal of Applied Physics, 21 Aug. 2013, Peer-reviewed
      • Thermochromic VO2 nanorods made by sputter deposition: Growth conditions and optical modeling
        Shu-Yi Li; Kyoko Namura; Motofumi Suzuki; Gunnar A. Niklasson; Claes G. Granqvist
        JOURNAL OF APPLIED PHYSICS, Jul. 2013, Peer-reviewed
      • Photoacoustic emission from Au nanoparticles arrayed on thermal insulation layer
        Kyoko Namura; Motofumi Suzuki; Kaoru Nakajima; Kenji Kimura
        Optics Express, 08 Apr. 2013, Peer-reviewed
      • Photoacoustic Emission from Local Plasmon Resonators Nanostructured by Glancing Angle Deposition
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        ECS Transactions, Oct. 2012, Peer-reviewed
      • Heat-generating property of a local plasmon resonator under illumination
        Kyoko Namura; Motofumi Suzuki; Kaoru Nakajima; Kenji Kimura
        Optics Letters, 15 Sep. 2011, Peer-reviewed
      • Spatiotemporal-photothermal and photoacoustic conversions with local plasmon resonators
        Kyoko Namura; Motofumi Suzuki; Kaoru Nakajima; Kenji Kimura
        NANOSTRUCTURED THIN FILMS IV, 2011, Peer-reviewed

      Misc.

      • 光熱誘起マイクロバブルを使ったマイクロ流体駆動
        名村 今日子; 鈴木 基史
        JSME TED Newsletter, Sep. 2022, Lead author
      • 光熱加熱を用いた水蒸気マイクロバブルの生成と周辺対流の制御
        名村 今日子; 鈴木 基史
        フォトニクスニュース, May 2022, Lead author
      • Analysis of Flow Structure of Marangoni Convection around a Micro Bubble Attached to the Channel Wall
        Atsumi Takaya; Tatsumi Kazuya; Namura Kyoko; Kuriyama Reiko; Suzuki Motofumi; Nakabe Kazuyoshi
        The Proceedings of the Thermal Engineering Conference, 2018
      • 金ナノ粒子の光熱変換によるマイクロ流体駆動
        NAMURA KYOKO; NAKAJIMA KAORU; KIMURA KENJI; SUZUKI MOTOFUMI
        日本学術会議材料工学連合講演会講演論文集, Oct. 2014
      • 周期的な非稠密円柱配列構造のボトムアップ形成
        SUGANUMA SHINTA; KANEKO YASUYUKI; NAMURA KYOKO; NAKAJIMA KAORU; KIMURA KENJI; SUZUKI MOTOFUMI
        応用物理学会春季学術講演会講演予稿集(CD-ROM), Mar. 2014
      • 斜め蒸着膜により高感度化された光導波路センサー
        KURIYAMA SHOHEI; TAKAGAKI MUNEHITO; NAMURA KYOKO; NAKAJIMA KAORU; KIMURA KENJI; SUZUKI MOTOFUMI
        応用物理学会春季学術講演会講演予稿集(CD-ROM), Mar. 2014
      • SiO2コラム上のバナジウム酸化物ナノワイヤの成長
        NAMURA KYOKO; LI SHU-YI; GRANQVIST CLAES G; SAITO HIKARU; KURATA HIROKI; SUZUKI MOTOFUMI; NAKAJIMA KAORU; KIMURA KENJI
        応用物理学会秋季学術講演会講演予稿集(CD-ROM), Aug. 2013
      • 金ナノ粒子からの光音響放出の干渉による制御
        NAMURA KYOKO; SUZUKI MOTOFUMI; NAKAJIMA KAORU; KIMURA KENJI
        真空に関する連合講演会講演予稿集, Nov. 2011
      • 自己組織的に配列した金ナノ粒子からの高効率光音響放出
        NAMURA KYOKO; SUZUKI MOTOFUMI; NAKAJIMA KAORU; KIMURA KENJI
        日本学術会議材料工学連合講演会講演論文集, Oct. 2011
      • コンビナトリアル局所プラズモン共振器の作製と光による発熱特性
        NAMURA KYOKO; SUZUKI MOTOFUMI; NAKAJIMA KAORU; KIMURA KENJI
        日本学術会議材料工学連合講演会講演論文集, Oct. 2010
      • 局所プラズモン共振器の光による発熱特性
        NAMURA KYOKO; SUZUKI MOTOFUMI; NAKAJIMA KAORU; KIMURA KENJI
        応用物理学会学術講演会講演予稿集(CD-ROM), Aug. 2010

      Presentations

      • Microfluidic mixing on plasmonic nanostructures
        Kyoko Namura; Ryoma Sakanai; Yasushi Kojima; Motofumi Suzuki
        SPIE Optics & Photonics, 24 Aug. 2023, Invited
      • Thermo-Fluid Phenomena Controlled by Photothermally Induced Microbubbles
        名村 今日子; 安田 直記; 松尾 竜; 鈴木 基史
        第70回応用物理学会春季学術講演会, 16 Mar. 2023, Invited
      • Microfluidic control using microbubbles photothermally induced on micro/nano structured thin films
        名村 今日子; 鈴木 基史
        レーザー学会学術講演会第43回年次大会, 19 Jan. 2023, Invited
      • Collective motion of water vapor microbubbles investigated by thermoplasmonic effect
        K. Namura; M. Suzuki
        SPIE Optics & Photonics, 23 Aug. 2022, Invited
      • Application of self-assembled plasmonic structures for microfluidic control and sensing
        K. Namura; S. Kumar; M. Suzuki
        SPIE Optics+Photonics 2020, Aug. 2020, Invited
      • Thermoplasmonics for investigation of microbubble dynamics in degassed water
        Kyoko Namura
        SPIE Optics + Photonics 2019, 13 Aug. 2019, Invited
      • 光熱変換によって局所加熱された気液界面の力学
        Kyoko Namura; Motofumi Suzuki
        第66回 応用物理学会 春季学術講演会, 11 Mar. 2019, Invited
      • Control of convection around a microbubble generated by thermoplasmonic effect
        Kyoko Namura
        光・量子デバイス研究会 公開研究会, 21 Dec. 2018, Invited
      • Thermoplasmonics for Water Vapor Microbubble Generation and Microfluidic Control
        Kyoko Namura
        TIX2018, Oct. 2018, Invited
      • Microbubble nucleation and subsequent flow generation studied by thermoplasmonic effect
        Kyoko Namura
        SPIE Optics + Photonics 2018, 20 Aug. 2018, Invited
      • Interfacial mechanics studied by photothermal heating of plasmonic nanostructures
        K. Namura; M. Suzuki
        IEEE NEMS 2018, Apr. 2018, Invited
      • Microfluidic Control by Photothermal Heating of Gold Nanoisland Film
        Kyoko Namura
        TIX2017, 10 Nov. 2017, Invited
      • Microfluidic mixing flow around a microbubble generated in water with low dissolved gases concentration
        Kyoko Namura
        化学工学会, 22 Sep. 2017, Invited
      • Marangoni Flow in Microfluidics Controlled by Laser Heating of Gold Nanoisland Films
        Kyoko Namura
        2017年秋季 第78回応用物理学関係連合講演会, 08 Sep. 2017, Invited
      • Microfluidic manipulation based on thermoplasmonic Marangoni effects
        Kyoko Namura
        AMEC_ISMHT, 03 Sep. 2017, Invited
      • Microparticle handling method based on thermoplasmonic Marangoni effects
        K. Namura; M. Suzuki
        SPP8, 26 May 2017, Invited
      • Microfluidic control by using thermoplasmonic Marangoni effect around a microbubble
        K. Namura; M. Suzuki
        CICMT2017, 21 Apr. 2017, Invited
      • マイクロバブルの生成と光熱マランゴニ対流に水中溶存酸素濃度が与える影響
        岡井 俊介; 名村 今日子; 中嶋 薫; 鈴木 基史
        2017年春季 第64回応用物理学会春季学術講演会, 15 Mar. 2017
      • Photothermal Marangoni Flows around a Microbubble Studied by Thermochromic VO2 Thin Films
        T. Sono; K. Namura; M. Suzuki
        Symposium on Surface Science & Nanotechnology -25th Anniversary of SSSJ Kansai, 25 Jan. 2017
      • Photothermally induced Marangoni flows around a water vapor microbubble on gold nanoisland films
        K. Namura; K. Nakajima; M. Suzuki
        Symposium on Surface Science & Nanotechnology -25th Anniversary of SSSJ Kansai, 25 Jan. 2017
      • Plasmonic thin films structured by Glancing Angle Deposition and their applications to optofluidics
        K. Namura; M. Suzuki
        GFMAT2016, 29 Jun. 2016, Invited
      • Particle Focusing by Using Thermoplasmonic Marangoni Flow
        名村今日子; Gregory A. Pilgrim; 中嶋薫; 鈴木基史
        2016年春季 第63回応用物理学会春季学術講演会, 19 Mar. 2016, JSAP
      • Marangoni flows controlled by photothermal effect of gold nanoparticle array
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        The 15th Kyoto - Tsinghua - Seoul National University Thermal Engineering Conference, 13 Dec. 2015
      • Micro vortex flows induced by thermoplasmonic Marangoni effect
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        SPIE Micro+Nano Materials, Devices, and Applications, 07 Dec. 2015, SPIE
      • Vortex Flows Pulsated by Thermoplasmonic Marangoni Effect
        T. Sono; K. Namura; M. Suzuki
        MNC 2015, Nov. 2015
      • Particle Focusing by Marangoni Flow on Nano-Plasmonic Thin Films
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        材料WEEK, 13 Oct. 2015, 日本材料学会
      • Clustering of Microspheres Using Thermoplasmonic Marangoni Effect
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        2015年秋季 第76回応用物理学関係連合講演会 (English session), 14 Sep. 2015, JSAP
      • Microfluidic control on nano-plasmonic thin films using Marangoni effect
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        SPIE NanoScience + Engineering, 13 Aug. 2015, SPIE
      • Thermoplasmonic control of Marangoni flow around a micro bubble
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        第62回応用物理学会春季学術講演会, 12 Mar. 2015, 応用物理学会, Invited
      • 金ナノ粒子の光熱変換によるマイクロ流体駆動
        名村今日子; 中嶋薫; 木村健二; 鈴木基史
        第 58 回材工研講演会: OS7 ナノ形態の制御と応用, 28 Oct. 2014, 日本学術会議
      • Photoacoustic Drive of Microfluid Using Au/SiO2 Heterostructured Nanorods Array
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        226th ECS Meeting, 08 Oct. 2014, ECS
      • Microfluidic control by temporally modulated thermoplasmonics
        K. Namura; K. Nakajima; K. Kimura; M. Suzuki
        第 75 回応用物理学関係連合講演会, 18 Sep. 2014, 応用物理学会
      • NIR perfect absorbers with thermochromic VO2 layer
        K. Namura; N. Muroi; S.-Y. Li; C. G. Granqvist; M. Suzuki
        第61回応用物理学会春季学術講演会, 19 Mar. 2014, 応用物理学会
      • Fluid Manipulation by Thermoplas- monic Properties of Au/SiO2 Heterostructured Nanorods Array
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        2013 MRS Fall Meeting & Exhibit, Dec. 2013, MRS
      • SiO2コラム上のバナジウム酸化物ナノワイヤの成長
        名村今日子; S.-Y. Li; C. G. Granqvist; 斉藤光; 倉田博基; 鈴木基史; 中嶋薫; 木村健二
        第74回応用物理学会秋季学術講演会, 18 Sep. 2013, 応用物理学会
      • (see Proc.) Photoacoustic Emission from Local Plasmon Resonators Nanostructured by Glancing Angle Deposition
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        PRiME 2012 (ECS 222nd meeting), 08 Oct. 2012, ECS
      • Improvement of photoacoustic emission from Au nanoparticles
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        第73回応用物理学会学術講演会, 12 Sep. 2012, 応用物理学会
      • Role of thermal insulation layer on photoacoustic emission from Au nanoparticles
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        第 59 回応用物理学関係連合講演会, 16 Mar. 2012, 応用物理学会
      • 金ナノ粒子からの光音響放出の干渉による制御
        名村今日子; 鈴木基史; 中嶋薫; 木村健二
        第52回真空に関する連合講演会, 17 Nov. 2011, 日本真空協会
      • Spatial photothermal conversion with local plasmon resonator
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        KU-NTHU Joint Workshop of Materials Science for Sensing, Photonics, and Electronics, Nov. 2011
      • 自己組織的に配列した金ナノ粒子からの高効率光音響放出
        名村今日子; 鈴木基史; 中嶋薫; 木村健二
        第55回日本学術会議材料工学連合講演会, 21 Oct. 2011, 日本学術会議
      • Plasmonic Nanoheaters: Spatiotemporal Control of Heat Generation by Local Plasmon Resonators
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        IUMRS-ICA 2011, 20 Sep. 2011, IUMRS
      • Efficient photoacoustic emission from plasmonic cavities
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        第72回応用物理学会学術講演会, 31 Aug. 2011, 応用物理学会, Invited
      • (see Proc.) Spatiotemporal-photothermal and photoacoustic conversions with local plasmon resonators
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        SPIE Optics + Photonics 2011, 23 Aug. 2011, SPIE
      • Photoacoustic emission from local plasmon resonators
        K. Namura; M. Suzuki; K. Nakajima; K. Kimura
        第58回応用物理学関係連合講演会, 26 Mar. 2011, 応用物理学会
      • コンビナトリアル局所プラズモン共振器の作製と光による発熱特性
        名村今日子; 鈴木基史; 中嶋薫; 木村健二
        第54回日本学術会議材料工学連合講演会: OS6 薄膜のナノ形態制御と応用, 26 Oct. 2010, 日本学術会議
      • Spatially Controlled Heat Generation by Local Plasmon Resonator
        K. Namura; M. Suzuki; R. Tabuchi; K. Nakajima; K. Kimura
        AVS 57th International Symposium, Oct. 2010, AVS
      • 局所プラズモン共振器の光による発熱特性
        名村今日子; 鈴木基史; 中嶋薫; 木村健二
        第71回応用物理学会学術講演会, 14 Sep. 2010, 応用物理学会

      Awards

      • Aug. 2011
        SPIE Optics + Photonics 2011, Best Student Presentation Award
      • Nov. 2011
        第 52 回真空に関する連合講演会, 優秀ポスター賞
      • Mar. 2012
        京都大学工学研究科高等研究院融合ナノ基盤工学研究部門 第 4 回成果報告会, 最優秀発表賞
      • Jul. 2012
        京都大学工学研究科, 平成 24 年度 京都大学工学研究科馬詰研究奨励賞
      • Mar. 2015
        応用物理学会, 第37回(2014年秋季)応用物理学会講演奨励賞
      • 25 Jan. 2017
        SSSN-Kansai, SSSN-Kansai Young Researcher Award
      • 26 Oct. 2017
        The Surface Science Society of Japan, ISSS-8 Young Researcher's Awards,Best Poster Award
      • 07 Nov. 2017
        The 30th International Microprocesses and Nanotechnology Conference Organizing Committee, MNC 2016 Poster Award
      • 18 May 2019
        2018年日本表面真空学会学術講演会, 講演奨励賞 新進研究者部門

      Media Coverage

      • レーザー照射液かき混ぜ
        日経産業新聞, 先端技術, 07 Jul. 2017

      External funds: Kakenhi

      • 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
        Grant-in-Aid for Scientific Research (B)
        Basic Section 28050:Nano/micro-systems-related
        Kyoto University
        名村 今日子
        From 01 Apr. 2021, To 31 Mar. 2025, Granted
        蒸気バブル;核形成;マイクロ物体駆動;光熱変換;ナノ構造薄膜
      • Efficient photocatalytic reactions utilizing vapor bubble formation under sunlight irradiation
        Grant-in-Aid for Challenging Research (Exploratory)
        Medium-sized Section 19:Fluid engineering, thermal engineering, and related fields
        Kyoto University
        Kyoko Namura
        From 28 Jun. 2019, To 31 Mar. 2022, Project Closed
        水蒸気バブル;光熱変換;光触媒反応;太陽光;マイクロバブル;流体混合;マランゴニ対流;水分解;光触媒
      • Investigation of the influence of microbubble and Marangoni flow on heat transfer efficiency in the microscale cooling devices
        Grant-in-Aid for Young Scientists (A)
        Kyoto University
        Kyoko Namura
        From 01 Apr. 2017, To 31 Mar. 2020, Project Closed
        マランゴニ対流;水冷;マイクロバブル;沸騰;金ナノ粒子薄膜;光熱変換
      • Generation and control of singularities in viscous flow by photothermal conversion at liquid/nanostructured solid surfaces
        Grant-in-Aid for Scientific Research (A)
        Kyoto University
        Motofumi Suzuki
        From 01 Apr. 2017, To 31 Mar. 2020, Project Closed
        流れの特異点;マランゴニ力;光熱変換;ナノ形態制御薄膜
      • Studies on Marangoni vortex flows generated by photothermal effect of nano-structured thin films
        Grant-in-Aid for Research Activity Start-up
        Kyoto University
        Kyoko Namura
        From 28 Aug. 2015, To 31 Mar. 2017, Project Closed
        マランゴニ対流;マイクロバブル;金ナノ粒子;光熱変換;熱プラズモニック効果;マイクロ流体;マイクロ・ナノデバイス;動的斜め蒸着;サーモプラズモニクス;熱工学
      • Studies on photothermoacoustic phenomena from nanostructured thin films immersed in liquids
        Grant-in-Aid for Scientific Research (B)
        Kyoto University
        Motofumi Suzuki
        From 01 Apr. 2013, To 31 Mar. 2016, Project Closed
        サーモプラズモニクス;動的斜め蒸着;自己組織化;熱工学;マイクロ・ナノデバイス;マランゴニ効果;マイクロ・ナノでバイス
      • 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
        Grant-in-Aid for Scientific Research (B)
        Basic Section 28050:Nano/micro-systems-related
        Kyoto University
        名村 今日子
        From 28 Feb. 2024, To 31 Mar. 2025, Adopted

      External funds: others

      • マツダ財団「光誘起マランゴニ回転流を利用した自己集積的なマイクロ粒子の配列に関する研究」名村今日子
        マツダ研究助成ー科学技術振興関係ー
        From 30 Nov. 2015, To 31 Mar. 2017
        名村今日子
      • 機能性ナノ材料を活用した新規センシング応用に向けた基盤技術開発
        JST/センター・オブ・イノベーションプログラム(若手連携研究ファンド)
        From 01 Apr. 2019, To 31 Mar. 2020
        名村今日子
      • 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
        2020創発的研究支援事業
        From 01 Oct. 2021, To 30 Sep. 2028
        代表
      list
        Last Updated :2024/06/25

        Education

        Teaching subject(s)

        • From 01 Apr. 2024, To 31 Mar. 2025
          Solid State Physics 1
          G211, Fall, Graduate School of Engineering, 2
        • From 01 Apr. 2024, To 31 Mar. 2025
          Seminar on Mechanical and System Engineering
          5169, Fall, Faculty of Engineering, 2
        • From 01 Apr. 2024, To 31 Mar. 2025
          Introduction to Engineering Science A
          5110, Fall, Faculty of Engineering, 2
        • From 01 Apr. 2024, To 31 Mar. 2025
          Applied Electromagnetism
          5013, Spring, Faculty of Engineering, 2
        • From 01 Apr. 2024, To 31 Mar. 2025
          Introduction to Advanced Material Science and Technology (4 times course)
          i061, Spring, Graduate School of Engineering, 0.5
        • From 01 Apr. 2024, To 31 Mar. 2025
          Mechanical and System Engineering Laboratory 3
          5058, Spring, Faculty of Engineering, 1
        • From 01 Apr. 2024, To 31 Mar. 2025
          Mechanical and System Engineering Laboratory 3
          5058, Fall, Faculty of Engineering, 1
        • From 01 Apr. 2024, To 31 Mar. 2025
          Mechanical and System Engineering Laboratory 1
          5056, Fall, Faculty of Engineering, 1
        • From 01 Apr. 2024, To 31 Mar. 2025
          Mechanical and System Engineering Laboratory 2
          5057, Spring, Faculty of Engineering, 1
        • From 01 Apr. 2024, To 31 Mar. 2025
          Mechanical and System Engineering Laboratory 2
          5057, Fall, Faculty of Engineering, 1
        • From 01 Apr. 2024, To 31 Mar. 2025
          Mechanical and System Engineering Laboratory 1
          5056, Spring, Faculty of Engineering, 1
        • From 01 Apr. 2024, To 31 Mar. 2025
          Introduction to Advanced Material Science and Technology (8 times course)
          i062, Spring, Graduate School of Engineering, 1
        • From 01 Apr. 2024, To 31 Mar. 2025
          Introduction to Advanced Material Science and Technology (12 times course)
          i063, Spring, Graduate School of Engineering, 1.5
        • From 01 Apr. 2023, To 31 Mar. 2024
          Applied Electromagnetism
          5013, Spring, Faculty of Engineering, 2
        • From 01 Apr. 2023, To 31 Mar. 2024
          Solid State Physics 1
          G211, Fall, Graduate School of Engineering, 2
        • From 01 Apr. 2023, To 31 Mar. 2024
          Introduction to Advanced Material Science and Technology (4 times course)
          i061, Spring, Graduate School of Engineering, 0.5
        • From 01 Apr. 2023, To 31 Mar. 2024
          Mechanical and System Engineering Laboratory 2
          5057, Fall, Faculty of Engineering, 1
        • From 01 Apr. 2023, To 31 Mar. 2024
          Mechanical and System Engineering Laboratory 1
          5056, Spring, Faculty of Engineering, 1
        • From 01 Apr. 2023, To 31 Mar. 2024
          Mechanical and System Engineering Laboratory 1
          5056, Fall, Faculty of Engineering, 1
        • From 01 Apr. 2023, To 31 Mar. 2024
          Mechanical and System Engineering Laboratory 3
          5058, Spring, Faculty of Engineering, 1
        • From 01 Apr. 2023, To 31 Mar. 2024
          Mechanical and System Engineering Laboratory 3
          5058, Fall, Faculty of Engineering, 1
        • From 01 Apr. 2023, To 31 Mar. 2024
          Mechanical and System Engineering Laboratory 2
          5057, Spring, Faculty of Engineering, 1
        • From 01 Apr. 2023, To 31 Mar. 2024
          Introduction to Advanced Material Science and Technology (8 times course)
          i062, Spring, Graduate School of Engineering, 1
        • From 01 Apr. 2023, To 31 Mar. 2024
          Introduction to Advanced Material Science and Technology (12 times course)
          i063, Spring, Graduate School of Engineering, 1.5
        • From 01 Apr. 2022, To 31 Mar. 2023
          Advanced Modern Science and Technology (12 times course)
          i060, Fall, Graduate School of Engineering, 1.5
        • From 01 Apr. 2022, To 31 Mar. 2023
          Advanced Modern Science and Technology (8 times course)
          i056, Fall, Graduate School of Engineering, 1
        • From 01 Apr. 2022, To 31 Mar. 2023
          Advanced Modern Science and Technology (4 times course)
          i055, Fall, Graduate School of Engineering, 0.5
        • From 01 Apr. 2022, To 31 Mar. 2023
          Mechanical and System Engineering Laboratory 3
          5058, Fall, Faculty of Engineering, 1
        • From Apr. 2015, To Mar. 2016
          Mechanical and System Engineering Laboratory 3
          Spring, 工学部
        • From Apr. 2015, To Mar. 2016
          Mechanical and System Engineering Laboratory 3
          Fall, 工学部
        • From Apr. 2016, To Mar. 2017
          Mechanical and System Engineering Laboratory 3
          Spring, 工学部
        • From Apr. 2016, To Mar. 2017
          Mechanical and System Engineering Laboratory 3
          Fall, 工学部
        • From Apr. 2017, To Mar. 2018
          Mechanical and System Engineering Laboratory 3
          Spring, 工学部
        • From Apr. 2017, To Mar. 2018
          Mechanical and System Engineering Laboratory 3
          Fall, 工学部
        • From Apr. 2018, To Mar. 2019
          Mechanical and System Engineering Laboratory 3
          Spring, 工学部
        • From Apr. 2018, To Mar. 2019
          Mechanical and System Engineering Laboratory 3
          Fall, 工学部
        • From Apr. 2019, To Mar. 2020
          Mechanical and System Engineering Laboratory 3
          Spring, 工学部
        • From Apr. 2019, To Mar. 2020
          Mechanical and System Engineering Laboratory 3
          Fall, 工学部
        • From Apr. 2020, To Mar. 2021
          Mechanical and System Engineering Laboratory 3
          Spring, 工学部
        • From Apr. 2020, To Mar. 2021
          Mechanical and System Engineering Laboratory 3
          Fall, 工学部
        • From Apr. 2021, To Mar. 2022
          Mechanical and System Engineering Laboratory 3
          Spring, 工学部
        • From Apr. 2021, To Mar. 2022
          Mechanical and System Engineering Laboratory 3
          Fall, 工学部
        • From Apr. 2021, To Mar. 2022
          Advanced Modern Science and Technology (12 times course)
          Fall, 工学研究科
        • From Apr. 2021, To Mar. 2022
          Advanced Modern Science and Technology (4 times course)
          Fall, 工学研究科
        • From Apr. 2021, To Mar. 2022
          Advanced Modern Science and Technology (8 times course)
          Fall, 工学研究科
        list
          Last Updated :2024/06/25

          Administration

          Faculty management (title, position)

          • From 01 Apr. 2017, To 31 Mar. 2021
            桂事業場環境安全衛生委員会 委員

          ページ上部へ戻る