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Researcher Information

last modified:2024/11/22

Assistant Professor MIYAZAWA Keisuke

Mail Laboratory Website

Faculty, Affiliation

Faculty of Frontier Engineering,Institute of Science and Engineering  WPI Nano Life Science Institute
Assistant Professor

College and School Educational Field

Division of Electrical Engineering and Computer Science, Graduate School of Natural Science and Technology
Graduate School of Natural Science and Technology
School of Frontier Engineering, College of Science and Engineering

Laboratory

Nano-scale measurement and engineering laboratory TEL:076-234-4578 FAX:076-234-4569

Academic Background

【Academic background(Doctoral/Master's Degree)】
Kanazawa University Doctor College of Science and Engineering Division of Electrical Engineering and Computer Science 201809 Completed
Kanazawa University Master College of Science and Engineering Division of Electrical Engineering and Computer Science 201603 Completed
【Academic background(Bachelor's Degree)】
Kanazawa University Division of Electrical Engineering and Computer Science 201403
【Degree】
Ph. D. Engineering

Career

Japan Society for the Promotion of Science Research Fellow (DC1)(2016/04/01-2018/09/30)
Kanazawa University Nano-LSI Postdoctoral Researcher(2018/10/01-2019/03/31)
Kanazawa University Faculty of Frontier Engineering, Institute of Science and Engineering  Assistant Professor(2019/04/01-)

Year & Month of Birth

Academic Society

The Japan Society of Applied Physics
The Japan Society of Vacuum and Surface Science
The Biophysical Society of Japan

Award

○Award of Kanazawa University(2016/03)
○Award of JSAP(2017/03)
○Award of JSVSS(2018/05)
○Canon Anelva Prize at IVC-22 for Young Researcher(2022/09/16)
○JVSS Excellent Presentation Awards(2023/05/20)

Specialities

Scanning Probe Microscopy

Speciality Keywords

Atomic Force Microscopy,Scanning Probe Microscopy,Measurement Engineering,Electric Engineering,Applied Physics

Research Themes

Books

Papers

  •  Fabrication of electron beam deposited tip for atomic-scale atomic forcemicroscopy in liquid K. Miyazawa, H. Izumi, T. Watanabe-Nakayama, H. Asakawa, T. Fukuma Nanotechnology 26 105707 2015/02
  •  Improvements in fundamental performance of liquid-environment atomic forcemicroscopy with true atomic resolution K. Miyata, K. Miyazawa, S. M. R. Akrami, T. Fukuma Jpn. J. Appl. Phys. 54 8S2 08LA03 2015/07
  •  Mechanism of atomic force microscopy imaging of three-dimensional hydrationstructures at a solid-liquid interface T. Fukuma, B. Reischl, N. Kobayashi, P. Spijker, F. F. Canova, K. Miyazawa, A. S. Foster Phys. Rev. B 92 155412 2015/10
  •  Number density distribution of solvent molecules on a substrate: a transformtheory for atomic force microscopy K. Amano, Y. Liang, K. Miyazawa, K. Kobayashi, K. Hashimoto, K. Fukami, N. Nishi, T. Sakka, H. Onishi, T. Fukuma Phys. Chem. Chem. Phys. 23 15534 2016/03
  •  A relationship between three-dimensional surface hydration structuresand force distribution measured by atomic force microscopy K. Miyazawa, N. Kobayashi, M. Watkins, A. L. Shluger, K. Amano. T. Fukuma Nanoscale 8 7334 2016/03

show all

  •  Understanding 2D atomic resolution imaging of the calcite surface in waterby frequency modulation atomic force microscopy J. Tracey, K. Miyazawa, P. Spijker, K. Miyata, B. Reischl, F. F. Canova, A. L. Rohl, T. Fukuma, A. S. Foster Nanotechnology 27 41 415709 2016/09
  •  Influence of ions on two-dimensional and three-dimensional atomic forcemicroscopy at fluorite?water interfaces K. Miyazawa, M. Watkins, A. L. Shluger, T. Fukuma Nanotechnology 28 24 245701 2017/05
  •  Dissolution Processes at Step Edges of Calcite in Water Investigated byHigh-Speed Frequency Modulation Atomic Force Microscopy and Simulation K. Miyata, J. Tracey, K. Miyazawa, V. Haapasilta, P. Spijker, Y. Kawagoe,A. S. Foster, K. Tsukamoto, T. Fukuma Nano Letters 17 7 4083 2017/06
  •  Self-Assembling Supramolecular Nanostructures Constructed from de NovoExtender Protein Nanobuilding Blocks N. Kobayashi, K. Inano, K. Sasahara, T. Sato, K. Miyazawa, T. Fukuma, M.H. Hecht, C. Song, K. Murata, R. Arai ACS Synth. Biol. 7 5 1381 2018/04
  •  Morphology and Physical Properties of Hydrophilic-Polymer-Modified Lipidsin Supported Lipid Bilayers Y. Kakimoto, Y. Tachihara, Y. Okamoto, K. Miyazawa, T. Fukuma, R. Tero Langmuir 34 24 7201 2018/05
  •  High-veracity functional imaging in scanning probe microscopy via Graph-Bootstrapping Keisuke MiyazawaX. Li, L. Collins, K. Miyazawa, T. Fukuma, S. Jesse, S. V. Kalinin Nature Communications 9 2428 2018/06
  •  Visualizing charges accumulated in an electric double layer by three-dimensionalopen-loop electric potential microscopy K. Hirata, T. Kitagawa,K. Miyazawa, T. Okamoto, A. Fukunaga, C. Takatoh, T. Fukuma Nanoscale 10 30 14736 2018/07
  •  Direct comparison between subnanometer hydration structures on hydrophilicand hydrophobic surfaces via three-dimensional scanning force microscopy CW. Yang, K. Miyazawa, T. Fukuma, K. Miyata, IS. Hwang PCCP 20 32 23522 2018/08
  •  Hydration Layer Structure of Biofouling- Resistant Nanoparticles P. J. Molino, D. Yang, M. Penna, K. Miyazawa, B. R. Knowles, S. MacLaughlin, T. Fukuma, I. Yarovsky and M. J. Higgins ACS NANO 12 11 11610 2018/10
  •  Variations in Atomic-Scale Step Edge Structures and Dynamics of Dissolving Calcite in Water Revealed by High-Speed Frequency Modulation Atomic Force Microscopy Kazuki Miyata, Yuta Kawagoe, John Tracey, Keisuke Miyazawa, Adam S. Foster, Takeshi Fukuma The Journal of Physical Chemistry C 123 32 19786 2019/07/24
  •  High‐Resolution Electrochemical Mapping of the Hydrogen Evolution Reaction on Transition‐Metal Dichalcogenide Nanosheets Yasufumi Takahashi, Yu Kobayashi, Ziqian Wang, Yoshikazu Ito, Masato Ota, Hiroki Ida, Akichika Kumatani, Keisuke Miyazawa, Takeshi Fujita, Hitoshi Shiku, Yuri E. Korchev, Yasumitsu Miyata, Takeshi Fukuma, Mingwei Chen, Tomokazu Matsue Angewandte 59 1 3601 2019/11
  •  Self-assembly of small molecules at hydrophobic interfaces using group effect William Foster, Keisuke Miyazawa, Takeshi Fukuma, Halim Kusumaatmaja, Kislon Voϊtchovsky Nanoscale 9 12 5452-5463 2020/02/12
  •  Wideband Magnetic Excitation System for Atomic Force Microscopy Cantilevers with Megahertz-Order Resonance Frequency Kaito Hirata, Takumi Igarashi, Keita Suzuki, Keisuke Miyazawa, Takeshi Fukuma Scientific Reports 10 9133 2020/06/04
  •  Tip dependence of three-dimensional scanning force microscopy images of calcite–water interfaces investigated by simulation and experiments Keisuke Miyazawa, John Tracey, Bernhard Reischl, Peter Spijker, Adam S. Foster, Andrew L. Rohl, Takeshi Fukuma Nanoscale 24 12 12856-12868 2020/06/10
  •  Photothermal excitation efficiency enhancement of cantilevers by electron beam deposition of amorphous carbon thin films Marcos Penedo,Ayhan Yurtsever,Keisuke Miyazawa,Hirotoshi Furusho,Kiyo-Aki Ishii,Takeshi Fukuma Scientific Reports 10 1 17436 2020/10
  •  Geometrical Characterization of Glass Nanopipettes with Sub-10 nm Pore Diameter by Transmission Electron Microscopy Kazuki Shigyou,Linhao Sun,Riku Yajima,Shohei Takigaura,Masashi Tajima,Hirotoshi Furusho,Yousuke Kikuchi,Keisuke Miyazawa,Takeshi Fukuma,Azuma Taoka,Toshio Ando,Shinji Watanabe Analytical Chemistry 92 23 15388 2020/11/18 
  •  Inhibition of Silica Nanoparticle Adhesion to Poly(vinyl alcohol) Surfaces by Ammonia-Mediated Hydration: Implications for Effective Post-Chemical–Mechanical Planarization Cleaning Takahiko Ikarashi,Takumi Yoshino,Naoki Nakajima,Kazuki Miyata,Keisuke Miyazawa,Ygor Morais Jaques,Adam S. Foster,Megumi Uno,Chikako Takatoh,Takeshi Fukuma ACS Applied Nano Materials 4 1 71 2021/01/22 
  •  Cell penetration efficiency analysis of different atomic force microscopy nanoneedles into living cells. Marcos Penedo,Tetsuya Shirokawa,Mohammad Shahidul Alam,Keisuke Miyazawa,Takehiko Ichikawa,Naoko Okano,Hirotoshi Furusho,Chikashi Nakamura,Takeshi Fukuma Scientific reports 11 1 7756 2021/04/08
  •  Quasi-solid-state self-assembly of 1D-branched ZnSe/ZnS quantum rods into parallel monorail-like continuous films for solar devices Dechao Chen,Huayang Zhang,Keisuke Miyazawa,Ryohei Kojima,Peng Zhang,Lei Yang,Qiang Sun,Guosheng Shao,Takeshi Fukuma,Yongsheng Gao,Nam-Trung Nguyen,Colin L. Raston,Guohua Jia,Dongyuan Zhao,Paras N. Prasad,Shaobin Wang,Qin Li Nano Energy 89 106348 2021/07/15
  •  Visualizing intracellular nanostructures of living cells by nanoendoscopy-AFM Marcos Penedo,Keisuke Miyazawa,Naoko Okano,Hirotoshi Furusho,Takehiko Ichikawa,Mohammad Shahidul Alam,Kazuki Miyata,Chikashi Nakamura,Takeshi Fukuma Science Advances 7 52 2021/12/24
  •  Computed Three-Dimensional Atomic Force Microscopy Images of Biopolymers Using the Jarzynski Equality. Takashi Sumikama,Filippo Federici Canova,David Z Gao,Marcos Penedo,Keisuke Miyazawa,Adam S Foster,Takeshi Fukuma The journal of physical chemistry letters 5365 2022/06/09
  •  Visualizing Molecular-Scale Adsorption Structures of Anti-freezing Surfactants on Sapphire (0001) Surfaces at Different Concentrations by 3D Scanning Force Microscopy Takahiko Ikarashi,Kyosuke Nakayama,Naoki Nakajima,Kazuki Miyata,Keisuke Miyazawa,Takeshi Fukuma ACS Applied Materials & Interfaces 2022/09/20 

Conference Presentations

Others

Arts and Fieldwork

Patent

Theme to the desired joint research

Grant-in-Aid for Scientific Research

○「高速三次元AFMの開発とそれを用いた分子吸着構造のサブナノスケール観察技術の確立」(2016-2019) 
○「カーボンナノチューブ探針を用いた染色体のナノスケール3次元AFM計測技術の開発」(2022-2023) 

Competitive research funding,Contribution

Collaborative research,Consignment study

Classes (Bachelors)

○Microscopy B(2023)
○Microscopy A(2023)
○Electric Circuit Theory B(2023)
○Electric Circuit Theory D(2023)
○Electric Circuit Theory A(2023)
○Electric Circuit Theory C(2023)
○Introduction to Advanced Technologies B(2023)
○Introduction to Advanced Technologies A(2023)
○Microscopy A(2022)
○Microscopy B(2022)
○Electric Circuit Theory B(2022)
○Electric Circuit Theory D(2022)
○Electric Circuit Theory A(2022)
○Electric Circuit Theory C(2022)
○Introduction to Advanced Technologies A(2022)
○Introduction to Advanced Technologies B(2022)
○Microscopy A(2021)
○Microscopy B(2021)
○Introduction to Advanced Technologies A(2021)
○Introduction to Advanced Technologies B(2021)
○Electric Circuit Theory A(2021)
○Electric Circuit Theory B(2021)
○Electric Circuit Theory C(2021)
○Electric Circuit Theory D(2021)
○Microscopy A(2020)
○Microscopy B(2020)

Classes (Graduate Schools)

International Project

International Students

Lecture themes

Others (Social Activities)

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