Details of the Researcher

PHOTO

Yuanyuan Guo
Section
Frontier Research Institute for Interdisciplinary Sciences
Job title
Associate Professor
Degree

  • 修士(工学)(東北大学)

  • 博士(医工学)(東北大学)

Research History 14

  • 2023/02 - Present
    Tohoku University Frontier Research Institute of Interdisciplinary Sciences (FRIS) Associate Professor

  • 2021/01 - 2025/04
    Tohoku Initiative for Fostering Global Researchers for Interdisciplinary Sciences

  • 2023/02 - 2023/06
    Collegium de Lyon - Université de Lyon Collegium de Lyon Fellow 2022

  • 2021/07 - 2023/03
    Tohoku University Prominent Fellow

  • 2019/04 - 2023/01
    Tohoku University Department of Biomedical Engineering Assistant Professor

  • 2018/07 - 2023/01
    Tohoku University Graduate School of Medicine Assistant Professor

  • 2018/02 - 2023/01
    Tohoku University Frontier Research Institute of Interdisciplinary Sciences (FRIS) Assistant Professor

  • 2020/02 - 2020/08
    Massachusetts Institute of Technology (MIT) Department of Brain and Cognitive Sciences Visiting Research Scientist

  • 2019/10 - 2019/12
    École polytechnique fédérale de Lausanne Institute of Materials Visiting faculty

  • 2017/04 - 2018/01
    Graduate School of Life Sciences, Tohoku University Assistant Professor

  • 2015/04 - 2017/03
    Japan Society for the Promotion of Science Research Fellow (DC2)

  • 2015/10 - 2016/09
    Virginia Polytechnic Institute and State University Research Associate

  • 2014/09 - 2015/03
    Massachusetts Institute of Technology (MIT) Visiting Graduate Student

  • 2010/10 - 2011/08
    Tohoku University Visiting student

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Education 4

  • 東北大学大学院 医工学研究科 医工学専攻

    2014/04 - 2017/03

  • 東北大学大学院 工学研究科 電子工学専攻

    2012/10 - 2014/03

  • 中国電子科技大学 (UESTC) 電子情報工学部

    2008/09 - 2012/07

  • Tohoku University Department of Electronic Engineering

    2010/10 - 2011/08

Professional Memberships 5

  • 化学センサ研究会

    2023/10 - Present

  • 公益社団法人 電気化学会

    2023/09 - Present

  • 日本神経科学学会

  • Society for Neuroscience

  • Materials Research Society

Research Interests 1

  • Biosensor, multifunctional fiber, bioelectronics, neural engineering

Research Areas 3

  • Manufacturing technology (mechanical, electrical/electronic, chemical engineering) / Measurement engineering /

  • Life sciences / Biomaterials /

  • Life sciences / Biomedical engineering /

Awards 22

  1. 2024年度石田實記念財団研究奨励賞

    2024/11 一般財団法人 石田實記念財団 Biofibertronics 研究分野創出を目指した多機能ファイバセンサの革新と応用に関する研究

  2. 東北大学ディスティングイッシュトリサーチャー

    2024/05 東北大学

  3. 令和6年度科学技術分野の文部科学大臣表彰 若手科学者賞

    2024/04 文部科学省 生体システム解明に向けた多機能ファイバセンサの研究

  4. Collegium de Lyon Fellow

    2023/02 University of Lyon

  5. Innovators Under 35 Japan

    2022/12 MIT Technology Review

  6. 若手優秀研究賞

    2022/03 東北大学電気・情報系

  7. 紫千代萩賞

    2022/03 東北大学

  8. プロミネントリサーチフェロー

    2021/07 東北大学

  9. 第31回トーキン科学技術賞 最優秀賞

    2021/03 トーキン科学技術賞

  10. Young Scientist Award

    2019/11 13th Asian Conference on Chemical Sensors (ACCS 2019)

  11. 1st Place Winner

    2018/08 Falling Walls Lab Sendai (FWLS)

  12. Best Poster Award, Materials Research Society (MRS) Fall Meeting, Boston

    2015/12 Materials Research Society (MRS)

  13. President Fellowship For International Students

    2014/04 Tohoku University

  14. Best Presentation Award

    2013/07 International Workshop on Engineering of Functional Interfaces (EnFI 2013)

  15. All Sendai Lions Club Scholarship

    2013/06 All Sendai Lions Club

  16. Best Undergraduate Thesis Award, Distinction awarded at UESTC for excellent research achievement

    2012/07 University of Electronic Science and Technology of China

  17. Outstanding Student Leader Award, Honor from School of Electronic Engineering, UESTC

    2012/07 University of Electronic Science and Technology of China

  18. Honorary scholarship for short-term study (JYPE)

    2010/10 日本学生支援機構

  19. First Class Scholarship from Chinese Government

    2010/09

  20. Distinction in the UESTC Leader Training Program

    2010/01

  21. National Encouragement Scholarship from Chinese Government

    2009/09

  22. National Encouragement Scholarship from Chinese Government

    2008/09

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Papers 21

  1. Advancing multiplexed ion monitoring techniques: the development of integrated thermally drawn polymer fiber-based ion probes" International-journal Peer-reviewed

    Jingxuan WU, Tomoki Saizaki, Tatsuo Yoshinobu, Yuanyuan Guo

    Talanta 285 2025/04/01

    DOI: 10.1016/j.talanta.2024.127249  

  2. Development of Dual-Function Microelectronic Fibers for pH and Temperature Sensing: Toward In Vivo and Wearable Applications International-journal Peer-reviewed

    Mahiro Kubo, Mayuko Abe, Etienne Le Bourdonnec, Sheau-Chyi Wu, To-En Hsu, Takao Inoue, Yuanyuan Guo

    ACS Measurement Science Au inpress 2025/03/06

    Publisher: American Chemical Society (ACS)

    DOI: 10.1021/acsmeasuresciau.4c00092  

    ISSN: 2694-250X

    eISSN: 2694-250X

  3. Twisted fiber microfluidics: a cutting-edge approach to 3D spiral devices International-journal Peer-reviewed

    Shunsuke Kato, Daniel W. Carlson, Amy Q. Shen, Yuanyuan Guo

    Microsystems & Nanoengineering 10 (1) 2024/01/22

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1038/s41378-023-00642-9  

    eISSN: 2055-7434

    More details Close

    Abstract The development of 3D spiral microfluidics has opened new avenues for leveraging inertial focusing to analyze small fluid volumes, thereby advancing research across chemical, physical, and biological disciplines. While traditional straight microchannels rely solely on inertial lift forces, the novel spiral geometry generates Dean drag forces, eliminating the necessity for external fields in fluid manipulation. Nevertheless, fabricating 3D spiral microfluidics remains a labor-intensive and costly endeavor, hindering its widespread adoption. Moreover, conventional lithographic methods primarily yield 2D planar devices, thereby limiting the selection of materials and geometrical configurations. To address these challenges, this work introduces a streamlined fabrication method for 3D spiral microfluidic devices, employing rotational force within a miniaturized thermal drawing process, termed as mini-rTDP. This innovation allows for rapid prototyping of twisted fiber-based microfluidics featuring versatility in material selection and heightened geometric intricacy. To validate the performance of these devices, we combined computational modeling with microtomographic particle image velocimetry (μTPIV) to comprehensively characterize the 3D flow dynamics. Our results corroborate the presence of a steady secondary flow, underscoring the effectiveness of our approach. Our 3D spiral microfluidics platform paves the way for exploring intricate microflow dynamics, with promising applications in areas such as drug delivery, diagnostics, and lab-on-a-chip systems.

  4. The Development of Aptamer-Coupled Microelectrode Fiber Sensors (apta-μFS) for Highly Selective Neurochemical Sensing Peer-reviewed

    Tomoki Saizaki, Mahiro Kubo, Yuichi Sato, Hiroya Abe, Tomokazu Ohshiro, Hajime Mushiake, Fabien Sorin, Yuanyuan Guo

    Analytical Chemistry 95 (17) 6791-6800 2023/04/24

    Publisher: American Chemical Society (ACS)

    DOI: 10.1021/acs.analchem.2c05046  

    ISSN: 0003-2700

    eISSN: 1520-6882

  5. Shape-Memory-Alloys Enabled Actuatable Fiber Sensors via the Preform-to-Fiber Fabrication Peer-reviewed

    Yuichi Sato, Yuanyuan Guo

    ACS Applied Engineering Materials 2023/01/23

    Publisher: American Chemical Society (ACS)

    DOI: 10.1021/acsaenm.2c00226  

    ISSN: 2771-9545

  6. Microelectronic fibers for multiplexed sweat sensing Peer-reviewed

    Jingxuan Wu, Yuichi Sato, Yuanyuan Guo

    Analytical and Bioanalytical Chemistry 2023/01/09

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1007/s00216-022-04510-9  

    ISSN: 1618-2642

    eISSN: 1618-2650

  7. Thermally Drawn CNT-Based Hybrid Nanocomposite Fiber for Electrochemical Sensing Peer-reviewed

    Rino Nishimoto, Yuichi Sato, Jingxuan Wu, Tomoki Saizaki, Mahiro Kubo, Mengyun Wang, Hiroya Abe, Inès Richard, Tatsuo Yoshinobu, Fabien Sorin, Yuanyuan Guo

    Biosensors 12 (8) 559-559 2022/07/24

    Publisher: MDPI AG

    DOI: 10.3390/bios12080559  

    eISSN: 2079-6374

  8. Thermally-Drawn Multi-Electrode Fibers for Bipolar Electrochemistry and Magnified Electrochemical Imaging Peer-reviewed

    Tomoki Iwama, Yuanyuan Guo, Shoma Handa, Kumi Y. Inoue, Tatsuo Yoshinobu, Fabien Sorin, Hitoshi Shiku

    Advanced Material Technologies (2101066) 2021/11/04

    DOI: 10.1002/admt.202101066  

    ISSN: 2365-709X

  9. Light in Electrochemistry Invited Peer-reviewed

    Hiroya Abe, Tomoki Iwama, Yuanyuan Guo

    Electrochem 2 (3) 472-489 2021/08/26

    Publisher: MDPI AG

    DOI: 10.3390/electrochem2030031  

    eISSN: 2673-3293

    More details Close

    Electrochemistry represents an important analytical technique used to acquire and assess chemical information in detail, which can aid fundamental investigations in various fields, such as biological studies. For example, electrochemistry can be used as simple and cost-effective means for bio-marker tracing in applications, such as health monitoring and food security screening. In combination with light, powerful spatially-resolved applications in both the investigation and manipulation of biochemical reactions begin to unfold. In this article, we focus primarily on light-addressable electrochemistry based on semiconductor materials and light-readable electrochemistry enabled by electrochemiluminescence (ECL). In addition, the emergence of multiplexed and imaging applications will also be introduced.

  10. Miniature multiplexed label-free pH probe in vivo Peer-reviewed

    Yuanyuan Guo, Carl Frederik Werner, Shoma Handa, Mengyun Wang, Tomokazu Ohshiro, Hajime Mushiake, Tatsuo Yoshinobu

    Biosensors and Bioelectronics 174 (112870) 112870-112870 2021/02/15

    Publisher: Elsevier BV

    DOI: 10.1016/j.bios.2020.112870  

    ISSN: 0956-5663

  11. Spatially expandable fiber-based probes as a multifunctional deep brain interface Peer-reviewed

    Nature Communications 11 (Article number: 6115) 2020/11/30

  12. Polymer-fiber-coupled field-effect sensors for label-free deep brain recordings Peer-reviewed

    Y. Guo, C.F. Werner, A. Canales, L. Yu, X. Jia, P. Anikeeva, T. Yoshinobu

    PLOS ONE 15 (e0228076) 2020/01/24

    DOI: 10.1371/journal.pone.0228076  

  13. Modeling of the Return Current in a Light-Addressable Potentiometric Sensor Peer-reviewed

    T. Yoshinobu, D. Sato, Y. Guo, C. F. Werner, K. Miyamoto

    Sensors 19 (4566) 2019/09

    DOI: 10.3390/s19204566  

    eISSN: 1424-8220

  14. Polymer Composite with Carbon Nanofibers Aligned during Thermal Drawing as a Microelectrode for Chronic Neural Interfaces Peer-reviewed

    Yuanyuan Guo, Shan Jiang, Benjamin J. B. Grena, Ian F. Kimbrough, Emily G. Thompson, Yoel Fink, Harald Sontheimer, Tatsuo Yoshinobu, Xiaoting Jia

    ACS NANO 11 (7) 6574-6585 2017/07

    DOI: 10.1021/acsnano.6b07550  

    ISSN: 1936-0851

    eISSN: 1936-086X

  15. Porous polymer optical fiber fabrication and potential biomedical application Peer-reviewed

    Li Yu, Haifeng Xuan, Yuanyuan Guo, Ai Lin Chin, Rong Tong, Gary Pickrell, Anbo Wang, Xiaoting Jia

    OPTICAL MATERIALS EXPRESS 7 (6) 1813-1819 2017/06

    DOI: 10.1364/OME.7.001813  

    ISSN: 2159-3930

  16. One-step optogenetics with multifunctional flexible polymer fibers Peer-reviewed

    Seongjun Park, Yuanyuan Guo, Xiaoting Jia, Han Kyoung Choe, Benjamin Grena, Jeewoo Kang, Jiyeon Park, Chi Lu, Andres Canales, Ritchie Chen, Yeong Shin Yim, Gloria B. Choi, Yoel Fink, Polina Anikeeva

    NATURE NEUROSCIENCE 20 (4) 612-+ 2017/04

    DOI: 10.1038/nn.4510  

    ISSN: 1097-6256

    eISSN: 1546-1726

  17. Device simulation of the light-addressable potentiometric sensor for the investigation of the spatial resolution Peer-reviewed

    Yuanyuan Guo, Ko-ichiro Miyamoto, Torsten Wagner, Micheal J. Schoening, Tatsuo Yoshinobu

    SENSORS AND ACTUATORS B-CHEMICAL 204 659-665 2014/12

    DOI: 10.1016/j.snb.2014.08.016  

    ISSN: 0925-4005

  18. Novel photoexcitation method for light-addressable potentiometric sensor with higher spatial resolution Peer-reviewed

    Yuanyuan Guo, Kosuke Seki, Ko-ichiro Miyamoto, Torsten Wagner, Michael J. Schoening, Tatsuo Yoshinobu

    APPLIED PHYSICS EXPRESS 7 (6) 1467-1472 2014/06

    DOI: 10.7567/APEX.7.067301  

    ISSN: 1882-0778

    eISSN: 1882-0786

  19. Theoretical study and simulation of light-addressable potentiometric sensors Peer-reviewed

    Yuanyuan Guo, Ko-ichiro Miyamoto, Torsten Wagner, Michael J. Schoening, Tatsuo Yoshinobu

    PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE 211 (6) 1467-1472 2014/06

    DOI: 10.1002/pssa.201330354  

    ISSN: 1862-6300

    eISSN: 1862-6319

  20. Device simulation of the light-addressable potentiometric sensor with a novel photoexcitation method for a higher spatial resolution Peer-reviewed

    Yuanyuan Guo, Kosuke Seki, Ko-ichiro Miyamoto, Torsten Wagner, Michael J. Schoening, Tatsuo Yoshinobu

    28TH EUROPEAN CONFERENCE ON SOLID-STATE TRANSDUCERS (EUROSENSORS 2014) 87 456-459 2014

    DOI: 10.1016/j.proeng.2014.11.369  

    ISSN: 1877-7058

  21. Enhancement of the Spatial Resolution of the Chemical Imaging Sensor by a Hybrid Fiber-Optic Illumination Peer-reviewed

    K. Miyamoto, K. Seki, Y. Guo, T. Wagner, M. J. Schoening, T. Yoshinobu

    28TH EUROPEAN CONFERENCE ON SOLID-STATE TRANSDUCERS (EUROSENSORS 2014) 87 612-615 2014

    DOI: 10.1016/j.proeng.2014.11.563  

    ISSN: 1877-7058

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Misc. 3

  1. 着るエレクトロニクス:熱延伸ファイバによる未来型繊維の可能性

    郭媛元

    繊維機械学会誌 月刊せんい Vol. 78 (No.8) 443-449 2025/08

  2. Electrochemical Detection of Dopamine:Approaches for in vitro and in vivo Applications Invited

    Hiroya ABE, Yuanyuan GUO

    CHEMICAL SENSORS Vol.39 (No.4) 120-127 2023/12

    Publisher: 電気化学会化学センサ研究会

  3. Device Simulation of the Light-addressable Potentiometric Sensor for High Spatial Resolution

    Proceedings of the Chemical Sensor Symposium 55 25-27 2013/09

    Publisher: 電気化学会化学センサ研究会

Books and Other Publications 1

  1. 熱延伸技術による多機能ファイバーセンサーの新次元:生体システム解明へのアプローチ

    郭 媛元

    月刊オプトロニクス2023年12月号 2023/12

Presentations 87

  1. Exploring the potential of fiber-based systems in sensing and actuation for neuroscience and healthcare. International-presentation Invited

    Yuanyuan Guo

    The 16th Hamlyn Symposium on Medical Robotics 2024/06/25

  2. 生体信号を計測可能にする多機能ファイバセンサの開発 Invited

    郭 媛元

    第84回分析化学討論会 2024/05/19

  3. Rapid Prototyping of 3D Spiral Microfluidics via the Preform-to-Fiber Thermal Drawing Process International-presentation Invited

    Yuanyuan Guo

    The 16th IEEE International Conference on Nano/Molecular Medicine and Engineering (IEEE-NANOMED 2023) 2023/12/07

  4. Microelectronic fiber-based multimodal bio-interface International-presentation Invited

    Yuanyuan Guo

    74th Annual Meeting of the International Society of Electrochemistry(Symposium 03: From wearable to sustainable electrochemical sensing and biosensing) 2023/09/08

  5. 多機能集積化ファイバ・テキスタイルで切り拓く脳・身体関連性 International-presentation Invited

    The 46th Annual Meeting of the Japan Neuroscience Society 2023/08/01

  6. Multimodal microelectronic fiber technologies for brain mereology Invited

    郭媛元

    日本生理学学会第100回記念大会 2023/03/16

  7. 脳機能解明に向けた 多機能ファイバセンサの開発 に関する研究 Invited

    国際女性デー記念 第5回東北大学紫千代萩賞受賞講演会 2022/03/03

  8. Fiber-based electrochemical sensors for in vivo biochemical sensing Invited

    Yuanyuan Guo

    Institut des Sciences Analytiques (ISA) - Lyon, Institutional seminar 2022/02/08

  9. Neuroelectronics: Designing and developing electronics to better understand the brain and beyond

    Yuanyuan Guo

    The FRIS Hub Meeting 2021/09/24

  10. Fiber-based multimodal neural probes for in vivo chemical sensing

    Yuanyuan Guo, Rino Nishimoto, Carl Frederik Werner, Mengyun Wang, Hiroya Abe, Tomokazu Ohshiro, Hajime Mushiake, Tatsuo Yoshinobu

    the 44th Annual Meeting of the Japan Neuroscience Society/the 1st CJK International Meeting 2021/07/29

  11. 脳機能の解明に向けた 多機能三次元神経プローブの開発〜⽣体内・外の多様な信号の計測・操作の実現〜

    郭 媛元

    JST創発的研究支援事業 第4回 融合の場 2025/07/31

  12. Multimodal Metafibers as Soft Architectures for Sensing, Modulation, and Material Expression Invited

    Yuanyuan Guo

    WPI–AIMR & WPI–SKCM2 International & Interdisciplinary Math–Materials Workshop 2025/07/29

  13. 生体微小環境のモニタリングを可能にする多機能ファイバーの開発

    阿部 茉友子, 久保 稀央, 井上 貴雄, 郭 媛元

    第48回日本神経科学大会 2025/07/26

  14. 多機能ファイバによる脳活動の計測と操作 Invited

    郭媛元

    APPW2025 2025/03/17

  15. 回転型熱延伸技術を⽤いた多機能ファイバ電気泳動デバイスの開発

    狩俣 空, 加藤, 駿典 郭 媛元

    2025年応⽤物理学会春季講演会 2025/03/17

  16. Magnetic µCoil fibers for non-invasive neuromodulation

    Etienne LEBOURDONNEC, Kaoru Hiramoto, Hideaki, Yamamoto, Ayumi Hirano-Iwata, Shigehiro Ohnuma HiroshiMasumoto YuanyuanGuo

    The 72nd JSAP Spring Meeting 2025 2025/03/17

  17. 熱延伸による多機能ファイバを⽤いたソフトアクチュエータの開発

    秋元 有斗, Coativy Gildas, Cavaille Jean-Yves, AdrienJerome,MaireEric, 郭媛元

    第72回応用物理学会秋季学術講演会 2025/03/17

  18. 生体信号を読む、支える、つなぐ:多機能ファイバが変える未来の健康 Invited

    郭 媛元

    MICHINOOKコミュニティシンポジウム 2025/03/14

  19. Pioneering Biofibertronics: flexible microelectronic fibers for advanced biomedical applications Invited

    Yuanyuan Guo

    2024/12/16

  20. 脳機能の解明に向けた 多機能三次元神経プローブの開発〜⽣体内・外の多様な信号の計測・操作の実現~

    郭 媛元

    第5回田中パネル 創発の場 2024/12/14

  21. Thermally-drawn fiber technologies with sensing and actuation capabilities for neuroscience and healthcare applications International-presentation Invited

    Yuanyuan Guo

    CRISTMAS 2024 2024/12/11

  22. Fiber-based soft actuators via thermal drawing International-presentation

    Yuto Akimoto, Gildas Coativy, Jean-Yves Cavaille, Yuanyuan Guo

    CRISTMAS 2024 2024/12/10

  23. Microelectronic fiber for bio-signal recording and stimulation”, Wearable and Implantable Sensors and Electrochemical Devices International-presentation

    E. Le Bourdonnec, K. Hiramoto, H. Yamamoto, A. Hirano-Iwata, S. Ohnuma, H. Masumoto, Y. Guo

    WISED2024 2024/11/28

  24. 熱延伸技術による多機能繊維の開発とその応用 Invited

    郭 媛元

    第 31 回秋季セミナー「繊維+α=価値∞を目指して」 2024/11/15

  25. Microelectronic Fiber Sensors: Advancing Chemical Sensing for Implantable and Wearable Applications International-presentation Invited

    Yuanyuan Guo

    Webinar @ French Group of Bioelectrochemistry 2024/09/25

  26. 脳機能の解明に向けた多機能三次元神経プローブの開発

    郭 媛元

    JST 創発的研究支援事業 第3回「融合の場」(会期④) 2024/07/19

  27. 多機能ファイバセンサを活用したセメントのpH計測に関する研究

    谷口駿和, 寺本篤史, 西脇智哉, 郭媛元

    コンクリート工学年次大会2024(松山) 第46回コンクリート工学講演会 2024/06/26

  28. 温度・pHをセンシング可能な多機能ファイバセンサの開発

    久保 稀央, 阿部 茉友子, 井上 貴雄, 郭 媛元

    2024年第71回 応用物理学会春季学術講演会 2024/03/23

  29. 複数の神経化学物質を同時に検出できる多機能ファイバ センサの開発

    雑崎 智沖, 石川 里美, 郭 媛元

    2024年第71回 応用物理学会春季学術講演会 2024/03/23

  30. Fiber-based soft actuators via the thermal drawing International-presentation

    Yuto Akimoto, Gildas Coativy, Jean-Yves Cavaillé, Yuanyuan Guo

    ELyT Workshop 2024, 2024/03/12

  31. The development of multimaterial and multimodal fibers for biosignal recording International-presentation

    Etienne Le Bourdonnec, Yuanyuan Guo

    ELyT Workshop 2024 2024/03/13

  32. Microelectric Fiber Sensors for Multiplexed Neurochemical Sensing via Electrografting and Click Chemistry International-presentation

    Tomoki Saizaki, Satomi Ishikawa, Yuanyuan Guo

    ELyT Workshop 2024 2024/03/13

  33. 半導体pH計測デバイスを用いたセメントペーストのpH計測

    谷口駿和, 寺本篤史, 西脇智哉, 郭媛元

    2023年日本建築学会中国支部研究発表会 2024/03/02

  34. A Cutting-Edge Approach to 3D Spiral Devices International-presentation

    S. Kato, D. W. Carlson, A. Q. Shen, Y. Guo

    20th International Conference on Flow Dynamics (ICFD) 2023/11/07

  35. Multimodal Bio-Interfaces: Advancements in Microelectronic Fiber Technology

    Yuanyuan Guo

    95th IRCMS Seminar 2023/09/25

  36. 温度・化学物質をセンシングできる多機能ファイバデバイスの研究開発 [23p-B202-5]

    久保 稀央, 井上 貴雄, 郭 媛元

    第84回応用物理学会秋季学術講演会 2023/09/23

  37. Thermally drawn fiber-based all-in-one neural probe for multi-ions monitoring[21p-D902-10]

    Jingxuan Wu, Kuniaki Nagamine, Tatsuo Yoshinobu, Yuanyuan Guo

    2023/09/21

  38. 熱延伸プロセスによるファイバー内三次元螺旋流路の実現[19p-A311-8]

    加藤 駿典, ダニエル カールソン, シェン エイミー, 郭 媛元

    第84回応用物理学会秋季学術講演会 2023/09/19

  39. In vivo Multi-ion Monitoring with Thermally Drawn All-in-fiber Probe (Poster ID: s03-P-032) International-presentation

    J. Wu, K. Nagamine, T. Yoshinobu, Y. Guo

    74th Annual Meeting of the International Society of Electrochemistry 2023/09/04

  40. 脳機能の解明に向けた多機能三次元神経プローブの開発

    郭 媛元

    JST創発自発的な融合の場 第2回分子生命反応創発討論会 2023/08/25

  41. 極細径多機能カテーテル

    郭 媛元

    日本心血管インターベンション治療学会学術集会 (CVIT 2023) 2023/08/05

  42. Thermally drawn fiber-based multi-ions monitoring neural probe (poster, 3pm-158)

    Jingxuan Wu, Kuniaki Nagamine, Tatsuo Yoshinobu, Yuanyuan Guo

    The 46th Annual Meeting of the Japan Neuroscience Society 2023/08/03

  43. Thermal-Drawn Fiber-Based Multiplexed Electrochemical Sensor for Sweat Sensing Applications International-presentation

    J. Wu, Y. Sato, Y. Guo

    2023 Materials Research Society (MRS) Spring Meeting 2023/04/25

  44. Thermal-drawn microelectronic fibers for multiplexed sweat sensing

    J. Wu, Y. Sato, Y. Guo

    2023/03/29

  45. Thermally Drawn Microelectronic Fibers for All-in-One Sweat Sensing

    J. Wu, Y. Sato, Y. Guo

    2023/03/15

  46. 生工融合による biofibertronics研究への挑戦 Invited

    郭媛元

    Researcher+シンポジウム2022 2022/12/16

  47. 能動多機能ファイバセンサ Invited

    郭媛元

    MDF医工連携マッチング例会 次世代医療システム産業化フォーラム2022 2022/11/17

  48. 能動多機能ファイバセンサ

    郭媛元

    東北大学新技術説明会 2022/07/14

  49. 脳機能の解明に向けた多機能三次元神経プローブの開発

    郭媛元

    JST創発的研究支援事業「融合の場」第1回公開シンポジウム(中国・四国地区) 2022/06/09

  50. Microelectronic fiber based multimodal bio-interface Invited

    Yuanyuan Guo

    RIKEN BDR seminar 2022/04/20

  51. Flexible polymer fiber-based in vivo biochemical sensing and actuation Invited

    Yuanyuan Guo

    Translational and Integrative Research in Epilepsy (TIGER) Seminar, Center for Research in Neuroscience in Lyon (CNRL), France 2022/03/28

  52. Neuroelectronics: Designing and developing electronics to better understand the brain and beyond

    Yuanyuan Guo

    FRIS-KKU Virtual Meeting 2021/12/17

  53. 多機能ファイバー・センサーで切り開く脳科学

    Yuanyuan Guo

    2021/10/21

  54. 多機能ファイバ・センサの開発 Invited

    Yuanyuan Guo

    2021/09/29

  55. Thermally drawn fibers modified with carbon nanotubes for electrochemical sensing

    Mengyun Wang, Rino Nishimoto, Yuichi Sato, Hiroya Abe, Inès Richard, Tatsuo Yoshinobu, Fabien Sorin, Yuanyuan Guo

    Biosensors 2020 (Online) 2021/07/29

  56. In vivo label-free miniature pH microscope

    Yuanyuan Guo, Carl Frederik Werner, Shoma Handa, Mengyun Wang, Tomokazu Ohshiro, Hajime Mushiake, Tatsuo Yoshinobu

    Biosensors 2020 (Online) 2021/07/28

  57. Neuroelectronics: Designing and developing electronics to better understand the brain and beyond Invited

    Yuanyuan Guo

    TUMUG Online Lunch Meeting 2021/06/08

  58. In vivo label-free miniature pH microscope

    第3回COI学術交流会 2020/07/02

  59. Biochemical Sensors Coupled with Multifunctional Fibers for Label-free Imaging in the Brain and Beyond International-presentation

    Y. Guo, S. Handa, C. F. Werner, K. Miyamoto, P. Anikeeva, T. Yoshinobu

    13th Asian Conference on Chemical Sensors (ACCS 2019) 2019/11/17

  60. Multimodal fibers and sensors for biological applications Invited

    Yuanyuan Guo

    Institution Seminar, Institute of Nano- and Biotechnologies (INB), Aachen University of Applied Sciences, Jülich, Germany 2019/11/04

  61. Multimodal approaches via fibers and sensors to the brain International-presentation

    Yuanyuan Guo

    The Kick-off Symposium of Advanced Graduate Program for Future Medicine and Health Care 2019/03/05

  62. Multimodal approaches via fibers and sensors to the brain

    Yuanyuan Guo

    通研共同プロジェクト研究会 2019/02/14

  63. Breaking the wall of brain-machine interface International-presentation

    Yuanyuan Guo

    Falling Walls Lab Berlin 2018/11/08

  64. Organic microelectrodes as chronic brain interface International-presentation

    Y. Guo, J. Shan, B. Grena, I. Kimbrough, E. Thompson, Y. Fink, H. Sontheimer, T. Yoshinobu, X. Jia

    Society for Neuroscience Annual Meeting 2018 2018/11/03

  65. Astrocytes in modulating anxiety-related behaviours via multifunctional fibers International-presentation Invited

    Yuanyuan Guo

    The 6th International Conference of Glial Biology in Medicine 2018/10/14

  66. Elucidating astroglial basis of anxiety via multifunctional fibers

    Yuanyuan Guo

    連携型博士研究人材総合育成システムシンポジウム2018 2018/10/04

  67. Breaking the wall of brain-machine interface

    Yuanyuan Guo

    Falling Walls Lab Sendai (FWSL) 2018/08/31

  68. Study of astrocytes in modulating anxiety-related behaviours via multifunctional fibers International-presentation

    Yuanyuan Guo

    Joint symposium of 10th Optogenetics Research Conference and Second International Symposium on Brain Information Dynamics 2018/07/05

  69. Multifunctional fibers: a new tool to look into brain in detail

    Yuanyuan Guo

    Special Seminar, Graduate School of Innovative Life Science, University of Tomiya 2018/02/13

  70. Multimaterial and multifunctional fibers International-presentation

    Yuanyuan Guo

    Optogentics Research Society Japan 2017, 2017/10/21

  71. Implantable polymer composite electrode with carbon nanofibers (CNF) aligned during thermal drawing as a reliable chronic neural interface International-presentation

    Y. Guo, S. Jiang, B. Grena, I. Kimbrough, Y. Fink, H. Sontheimer, T. Yoshinobu, X. Jia

    Materials Research Society 2017 Spring Meeting 2017/04/17

  72. Implantable polymer composite electrode with carbon nanofibers (CNF) aligned during thermal drawing as a reliable chronic neural interface International-presentation

    Y. Guo, S. Jiang, B. Grena, I. Kimbrough, Y. Fink, H. Sontheimer, T. Yoshinobu, X. Jia

    5th International Conference on Multifunctional, Hybrid and Nanomaterials 2017/03/06

  73. Novel flexible neural probes integrated with multi-functionality for probing neural circuits at different brain regions with high precision International-presentation

    Y. Guo, D. Hu, I. Kimbrough, A. Wang, H. Sontheimer, T. Yoshinobu, X. Jia

    Materials Research Society 2016 Fall Meeting 2016/11/27

  74. In vivo label-free microscopy device based on field-effect sensor and polymer fibers for deep brain imaging International-presentation

    Y. Guo, A. Canales, P. Anikeeva, T. Yoshinobu, X. Jia

    Materials Research Society 2015 Fall Meeting 2015/11/29

  75. Flexible polymer fiber probes for integrated optogenetics and its combination with field-effect sensor for deep brain imaging International-presentation

    Y. Guo, X. Jia, S. Park, P. Anikeeva, T. Yoshinobu

    Tohoku Forum for Creativity Thematic Program 2015 2015/07/21

  76. Flexible polymer multimodal fibers and its integration with LAPS for deep brain imaging International-presentation

    Yuanyuan Guo

    5th German-Japanese Mini-Workshop on Nano- and Biotechnologies 2015/07/10

  77. Device-level simulation of the light-addressable potentiometric sensor for high-speed and high-resolution chemical imaging International-presentation

    Y. Guo, X. Jia, A. Canales, U. P. Froriep, K. Miyamoto, P. Anikeeva, T. Yoshinobu

    2013 International Conference on Solid State Devices and Materials (SSDM 2013) 2015/07/06

  78. Device simulation of the light-addressable potentiometric sensor with a novel photoexcitation method for a higher spatial resolution International-presentation

    Y. Guo, K. Seki, K. Miyamoto, T. Wagner, M. J. Schöning, T. Yoshinobu

    Eurosensors 2014, 2014/08/07

  79. Novel photoexcitation method of the light-addressable potentiometric sensor for higher spatial resolution

    2014/03/17

  80. デバイスシミュレーションによる Light-addressable Potentiometric Sensor の光電流解析

    郭 媛元

    文部科学省卓越した大学院拠点形成支援事業「情報エレクトロ二クスシステム教育研究拠点」研究成果報告会 2014/03/07

  81. Device simulation of the light-addressable potentiometric sensor for high spatial resolution

    Yuanyuan Guo

    2013/09/27

  82. TCAD simulation of light-addressable potentiometric sensor

    2013/09/16

  83. Device-level simulation of the light-addressable potentiometric sensor for high-speed and high-resolution chemical imaging International-presentation

    Y. Guo, K. Miyamoto, T. Wagner, M.J. Schöning, T. Yoshinobu

    2013 International Conference on Solid State Devices and Materials (SSDM 2013) 2013/08/24

  84. Device simulation of the light-addressable potentiometric sensor International-presentation

    Yuanyuan Guo

    2nd German-Japanese Mini-Workshop on Nano- and Biotechnologies, 2013/07/10

  85. “Theoretical study and simulation of light-addressable potentiometric sensors” International-presentation

    Y. Guo, K. Miyamoto, T. Wagner, M. J. Schöning, T. Yoshinobu

    Engineering of Functional Interfaces Workshop 2013 (EnFI2013) 2013/07/08

  86. “Modeling and simulation of the light-addressable potentiometric sensor for high-resolution and high-speed chemical imaging International-presentation

    Y. Guo, T. Wagner, K. Miyamoto, T. Yoshinobu

    The 7th International Symposium on Medical, Bio- and Nano-Electronics, 2013/03/07

  87. 生体・工学応用に向けた多機能ファイバの開発:電気泳動・マイクロミキシング・磁気刺激機構の内蔵化

    郭媛元

    東北大学 新技術説明会【オンライン開催】 2025/07/03

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Industrial Property Rights 6

  1. プローブ型センサー

    郭媛元, 吉信達夫, 半田祥真

    特許第7384390号

    Property Type: Patent

    Holder: 国立大学法人 東北大学

  2. OPTICAL CONNECTOR FERRULE,OPTICAL CONNECTOR ,AND COMPOSITE FIBER CONNECTING ASSEMBLY

    特許米国登録番号:11675141

    Property Type: Patent

    Holder:

  3. 機能性長尺器具の製造方法および機能性長尺器具技術

    郭媛元(Y.Guo), 佐藤雄一

    Property Type: Patent

  4. ソータ装置、マイクロミキサー、ファイバの製造方法

    郭媛元, 加藤駿典, Amy Q. Shen, Daniel W. Carlson

    Property Type: Patent

  5. 電気泳動装置、マイクロコイルファイバ、スウィーピング熱延伸装置、ファイバの製造方法、 ファイバ

    郭媛元, ブルドネツクルエテイエン, 狩俣空, 加藤駿典

    Property Type: Patent

  6. ひずみセンサ、センサユニット及びひずみセンサの製造方法

    Joerg Eckhardt Friemel, 郭媛元(Y.Guo), 大高剛一

    Property Type: Patent

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Research Projects 15

  1. Development of flexible organic semiconductor devices for biological potential and chemical imaging

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research

    Category: Grant-in-Aid for Challenging Research (Pioneering)

    Institution: Yamagata University

    2024/06 - 2028/03

  2. 化学イメージセンサのマルチアナライト化による反応可視化汎用プラットフォームの実現

    吉信 達夫, 宮本 浩一郎, WERNER Frederik, 郭 媛元

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業

    Category: 基盤研究(B)

    Institution: 東北大学

    2022/04/01 - 2026/03/31

    More details Close

    本研究は、1枚のセンサで複数の種類のイオンや分子の濃度分布を同時に画像化できる「マルチアナライト化学イメージセンサ」の実現を目的としている。従来、1枚のセンサで測定できる化学種は1つに限られていたたが、本研究では測定したい各化学種に応答する複数の感応膜を1枚のセンサ面上に集積する方法と、それらの応答を高速かつ正確に読み出す機構を開発することによって、目的の達成を目指している。 本年度は昨年度に引き続き、各種イオノフォアを含有する高分子膜をセンサ面上に作製し、感度や測定限界の違いを調べた。センサ面とイオン感応膜の密着性や、得られるスロープ感度の再現性に課題があったが、センサ面と各感応膜の間に画素の大きさに対応する導電性の下地層を設けることによりこれらの課題を解決できる見込みを得た。また、光走査によって多数の感応膜から正確に信号を読み出すための機構についても、昨年度に引き続き改良を進め、100万画素の画像を読み出せるようになった。 実用上問題になると思われる、試料溶液と半導体基板との容量結合による信号電流のロスについて、MIS構造における実験と回路モデルの解析により周波数特性などを調べ、感応膜アレイを有するセンサ構造において高周波動作を可能にする方法について検討を行った。 本システムの生物学的応用のため、センサ面上に設けた多数の培養チャンバに微生物を含む培養液を自動分注できるシステムの開発を行ったほか、植物根の生育をモニターする実験を行った。また、化学イメージセンサと各種電気化学システムを複合するための各種制御回路の開発を行った。

  3. 化学イメージセンサのマルチアナライト化による反応可視化汎用プラットフォームの実現

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research (B)

    Category: Grant-in-Aid for Scientific Research (B)

    Institution: Tohoku University

    2022/04 - 2026/03

  4. 脳機能の解明に向けた多機能三次元神経プローブの開発

    郭 媛元

    Offer Organization: 国立研究開発法人科学技術振興機構(JST)

    System: 創発的研究支援事業

    2021/04 - 2026/03

  5. 新規末梢型肺癌診断法の確立のため能動ファイバセンサの開発

    Offer Organization: Tohoku University

    System: 学際科学フロンティア研究所 学際研究共創プログラム

    Institution: Tohoku University

    2022/06 - 2024/03

  6. DNA アプタマーと標的分子間相互作用の解析による次世代生体分子センサの開発

    Offer Organization: Tohoku University

    System: TI-FRIS令和4年度学際融合研究支援

    2022/03 - 2024/03

  7. Tohoku Initiative for NeuroTech Innovations

    Offer Organization: Tohoku University

    System: Tohoku Forum for Creativity (TFC) Junior Research Program

    Institution: Tohoku University

    2022/03 - 2023/04

  8. Unlocking neural wiring paradigm via 3D fiber-weaved structures

    Offer Organization: Japan Agency for Medical Research and Development

    System: Interstellar Initiative

    Institution: Tohoku University

    2022/09 - 2023/03

  9. 日常人間ドックに向けた化学・力覚ファイバセンサおよびスマー トテキスタイルの開発

    郭媛元

    Offer Organization: JST COIプログラム

    System: COI東北拠点内若手支援

    Institution: 東北大学

    2021/05 - 2022/03

  10. 脳内の神経伝達物質の放出を計測する電気化学高分子プローブ

    阿部博弥, 市之瀬敏晴, 郭媛元

    Offer Organization: 東北大学

    System: 学際科学フロンティア研究所 学際研究共創プログラム

    Institution: 東北大学

    2020/04 - 2021/03

  11. Miniature pH microscope and its application to in vivo brain study

    2020/04 - 2021/03

  12. Label-free deep brain imaging with multifunctional-polymer-fiber coupled field-effect sensors Competitive

    Yuanyuan Guo

    Offer Organization: Japan Science and Technology Agency (JST)

    System: Center for Innovation (COI) Program - Young Scientist Joint Proposal

    2019/04 - 2020/03

  13. Stretching the boundary of multifunctional fibers with bio-sensing: appraising the brain’s energy budget Competitive

    Yuanyuan Guo

    2018 - 2019

  14. Shedding Light on the Role of Glia in Autism Spectrum Disorders (ASD) via Multifunctional Fibers, Competitive

    Yuanyuan Guo

    2018 - 2019

  15. 神経回路の刺激と記録を同時に実行できる半導体オプトエレクトロニックデバイスの開発, Competitive

    Offer Organization: Japan Society for the Promotion of Science (JSPS)

    System: Research Fellowship for Young Scientists

    2015/04 - 2017/03

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Social Activities 9

  1. NeuroTech Art Exhibition

    2023/07/31 - 2023/08/04

  2. 脳内化学物質を高感度かつ選択的に検出できるファイバセンサの開発

    2023/09 -

  3. Innovators Under 35 Japan 選出

    FRISニュース15号

    2022/11/28 -

  4. 産学連携イベント開催レポート

    FRISニュース10号

    2021/10 -

  5. 受賞の感想

    FRISニュース12号

    2021/10 -

  6. 日本に来て10年の歩みを振り返る

    TUMUG Newsletter

    2021/04 -

  7. 次世代生体内pH可視化デバイスの開発

    2021/03 -

  8. My stay in Boston

    2020/10 -

  9. Adventurous trip to Berlin: when does next "wall" to fall?

    2019/02 -

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Media Coverage 75

  1. 東北大、脳内物質を高感度・選択的検出 脳機能解明へ

    NIKKEI Tech Foresight

    2023/05/16

    Type: Internet

  2. 汗の成分を検出できる肌着用生地、東北大が開発

    MITテクノロジーレビュー編集部 [MIT Technology Review Japan]

    2023/02/14

  3. 東北大学が機能集約したカテーテル、直径数百μm以下に

    日経XTECH

    2023/02/10

    Type: Internet

  4. 35歳未満のイノベーター[日本版] 2022 構想者

    MITテクノロジーレビュー編集部 [MIT Technology Review Japan]

    2022/12

    Type: Newspaper, magazine

  5. バイポーラ電極化学顕微鏡熱延伸法で電極素子量産化

    科学新聞社編集部 科学新聞

    2021/12/03

    Type: Newspaper, magazine

  6. Eavesdropping on the pH Levels Inside the Brain

    Lab Manager

    2020/12/28

    Type: Internet

  7. 東北大,生体へ適用可能なpH可視化プローブを開発

    OPTRONICS ONLINE OPTRONICS ONLINE

    2020/12/21

    Type: Internet

  8. 中国翻訳版 「多機能ファイバー」で脳機能解明に挑む生体電気信号や神経化学物質を同時測定

    国立研究開発法人 科学技術振興機構 JSTNews5月号 【客観日本】簡体字・繁体字

    2025/06/11

    Type: Internet

    More details Close

    繁体字サイト https://tc.keguanjp.com/kgjp_jiaoliu/kgjp_jiaoliu/pt20250611000014.html

  9. 脳機能の解明だけじゃない!「多機能ファイバー」の活用で描かれる多彩な可能性

    株式会社角川アスキー総合研究所 ASCII.jp TECH【JSTnews5月号掲載】特集2

    2025/05/22

    Type: Internet

  10. 「毛髪並み」極細ファイバーで脳科学研究を変える

    株式会社角川アスキー総合研究所 MITテクノロジーレビュー [日本版]連載企画「IU35イノベーターの軌跡」

    2025/05/14

    Type: Internet

  11. 「多機能ファイバー」で脳機能解明に挑む生体電気信号や神経化学物質を同時に計測

    科学技術振興機構(JST) JSTnews

    2025/05

    Type: Internet

  12. 東北大,温度とpHを同時計測するファイバーを開発

    OPTRONICS ONLINE OPTRONICS ONLINE

    2025/04/02

    Type: Internet

  13. 東北大、生体内のpHと温度を同時計測する超微細ファイバーデバイスを開発

    マイナビニュース マイナビニュース

    2025/04/01

  14. 温度とpH を同時にセンシングできる 多機能ファイバーデバイスを開発 ~生体内プローブやウェアラブルデバイスに展開目指す~

    東北大学 2025年 | プレスリリース・研究成果

    2025/03

    Type: Internet

  15. Polymer-based neural ion probe developed by Tohoku University — Simultaneous in vivo measurement of multiple ion concentrations

    Science Japan Latest News

    2025/02/06

    Type: Internet

  16. Polymer-based neural ion probe developed by Tohoku University — Simultaneous in vivo measurement of multiple ion concentrations

    2025/02/03

    Type: Internet

  17. ポリマー製の神経イオンプローブ 東北大が開発

    株式会社 科学新聞社 The Science News Ltd. 科学新聞 2024年12月27日発売号 p1

    2025/01/01

    Type: Newspaper, magazine

  18. 生体内で複数のイオン濃度を同時に計測できる新技術を開発 ~柔軟性と高感度を兼ね備えた神経イオンプローブで実現~

    東北大学 東北大学プレスリリース 2024年 | プレスリリース・研究成果

    2024/12

    Type: Internet

  19. 心身の状態が可視化されたら、モビリティとの関係はどう変化する?好奇心で広げる多機能ファイバの可能性

    日産総合研究所

    2024/07/04

  20. Rapid Prototyping Method for Microscale Spiral Devices

    Medical Design Briefs https://www.medicaldesignbriefs.com/component/content/article/50698-rapid-prototyping-method-for-microscale-spiral-devices

    2024/04

    Type: Newspaper, magazine

  21. 複数のラセン状流路を持つ ポリマ製ファイバ開発

    Laser Focus World Japan

    2024/02

    Type: Internet

  22. New Rapid Prototyping Method for Microscale Spiral Device

    2024/01/26

    Type: Internet

  23. 東北大 脱講座で若手育成

    読売新聞 教育・投書 [大学最前線]

    2024/01/23

    Type: Newspaper, magazine

  24. New rapid prototyping method for microscale spiral devices

    Phys.Org

    2024/01

    Type: Internet

  25. Researchers Develop Speedy Method for 3D Spiral Devices

    AZOnano

    2024/01

    Type: Internet

  26. New Rapid Prototyping Method for Microscale Spiral Devices

    Alpha Galileo

    2024/01

    Type: Internet

  27. New rapid prototyping method for microscale spiral devices

    Lifeboat Fundation

    2024/01

    Type: Internet

  28. 東北大と沖縄科学技術大学院大、複数のらせん状流路を持つポリマー製ファイバーの開発に成功

    日本経済新聞電子版

    2024/01

    Type: Internet

  29. Reading chemicals inside the brain with an aptamer/microelectronic fiber combination

    2023/05/17

  30. Reading chemicals inside the brain with an aptamer/microelectronic fiber combination

    2023/05/17

    Type: Internet

  31. Analyzing Sweat via Microelectronic Fibers for Noninvasive Health Monitoring

    Medical Design Briefs

    2023/03/08

    Type: Internet

  32. A Microelectronic Fiber to Analyze Sweat

    Tech Briefs Media Group

    2023/02/23

    Type: Internet

  33. 熱延伸技術を応用、直径数百μm以下の多機能性カテーテルを開発

    MONOist

    2023/02/16

    Type: Internet

  34. Navigating complex biological systems with smart fibers

    Bioengineer.org

    2023/02/09

    Type: Internet

  35. Navigating complex biological systems with smart fibers

    SCIENMAG

    2023/02/09

    Type: Internet

  36. Navigating complex biological systems with smart fibers

    Phys.org

    2023/02/09

    Type: Internet

  37. Actuatable fiber sensor technologies could enable the use of smart catheters

    News-Medical.Net

    2023/02/09

    Type: Internet

  38. Navigating Complex Biological Systems with Smart Fibers

    AlphaGalileo

    2023/02/09

    Type: Internet

  39. 東北大学、多様な機能をシームレスに集積化した微細カテーテルの開発に成功

    大学ジャーナル

    2023/02/05

    Type: Internet

  40. How smart clothing could prove useful in healthcare

    The Star Online

    2023/02/03

    Type: Internet

  41. Les vêtements intelligents pourraient surveiller votre santé

    RTBF.be

    2023/02/03

  42. 東北大学、直径数百ミクロン以下の多機能性カテーテルを開発

    BioOptics World

    2023/02/03

    Type: Internet

  43. Non-invasive health monitoring with microelectronic fibers

    www.textiletechnology.net

    2023/02/02

    Type: Internet

  44. 汗の成分を検出するファイバーを織り込んだ衣類用生地を開発

    MONOist

    2023/02/02

    Type: Internet

  45. Des vêtements intelligents qui peuvent vous alerter sur votre état de santé

    ladepeche.fr

    2023/02/01

    Type: Internet

  46. Les vêtements intelligents se mettent désormais au service de la santé

    L'independant

    2023/02/01

    Type: Internet

  47. Bientôt un t-shirt pour surveiller votre santé via la sueur ?

    Pourquoi Docteur

    2023/01/30

    Type: Internet

  48. 東北大、数百μmの繊細さと屈曲変形とセンサ機能を備えた多機能性カテーテルを開発

    マイナビニュース

    2023/01/27

    Type: Internet

  49. 東北大、直径数百ミクロン以下の多機能性カテーテルを開発

    日本経済新聞

    2023/01/26

    Type: Internet

  50. 東北大,光ファイバプロセスで多機能カテーテル作製

    Optronics Online

    2023/01/26

    Type: Internet

  51. Smart Fibers Could Allow T-Shirts to Analyze Electrolytes and Metabolites in Sweat

    LabMedica International

    2023/01/23

    Type: Internet

  52. Analyzing sweat via microelectronic fibers for non-invasive health monitoring

    EurekAlert!

    2023/01/19

    Type: Internet

  53. Analyzing sweat via microelectronic fibers for noninvasive health monitoring

    Phys.org

    2023/01/19

    Type: Internet

  54. Analyzing Sweat via Microelectronic Fibers for Non-invasive Health Monitoring

    AlphaGalileo

    2023/01/19

    Type: Internet

  55. 東北大、汗検出ファイバー開発 スマート衣服で基礎疾患を追跡

    日刊工業新聞社

    2023/01/19

    Type: Newspaper, magazine

  56. 汗の多様な成分を検出できる肌着用生地を開発、健康モニタリングに応用可能-東北大

    QLifePro

    2023/01/19

  57. 汗の成分を検出するファイバを織り込んだ肌着用生地を開発 ─ 健康状態をさりげなくモニタリングすることが可能に ─

    アンドラ

    2023/01/18

  58. 汗で健康状態をさりげなくモニタリング、東北大が衣服用の新生地

    ケータイ Watch

    2023/01/17

    Type: Internet

  59. 汗の成分を検出する、多機能ファイバーを織り込んだ肌着用生地を開発 東北大学

    fabcross for エンジニア

    2023/01/17

    Type: Internet

  60. 東北大,レーザー加工等で衣服用多機能生地を開発

    Optronics Online

    2023/01/16

    Type: Internet

  61. 東北大、汗の成分を検出するファイバを織り込んだ肌着用生地を開発

    日本経済新聞

    2023/01/16

    Type: Internet

  62. BEM電極素子熱延伸法で作製

    日刊工業新聞社 日刊工業新聞 21面

    2021/11/09

    Type: Newspaper, magazine

  63. 東北大,BEM電極の量産化と回折限界越えに知見

    Optronics Online

    2021/11/08

    Type: Internet

  64. 独創的な若手研究者を育てる 東北大が独自システム

    日本経済新聞 日経電子版

    2021/08/11

    Type: Internet

  65. A New Device for Real-Time Investigations of Intrinsic Extracellular pH Dynamics in the Brain

    AZOSensors

    2020/12/28

    Type: Internet

  66. Eavesdropping on the pH Levels Inside the Brain

    Scienmag: Latest Science and Health News.

    2020/12/24

    Type: Internet

  67. Eavesdropping on the pH Levels Inside the Brain

    AlphaGalieo

    2020/12/24

    Type: Internet

  68. Eavesdropping on the pH Levels Inside the Brain

    Asia Research News

    2020/12/24

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  69. Eavesdropping on the pH Levels Inside the Brain

    Bioengineer.org

    2020/12/24

    Type: Internet

  70. Eavesdropping on the pH Levels Inside the Brain

    MedicalXpress

    2020/12/24

    Type: Internet

  71. Eavesdropping on the pH Levels Inside the Brain

    7th Space Family Portal

    2020/12/24

    Type: Internet

  72. New device for investigating intrinsic extracellular pH dynamics in the brain

    News-Medical.Net

    2020/12/24

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  73. Eavesdropping on the pH Levels Inside the Brain

    EurekAlert

    2020/12/23

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  74. Eavesdropping on the pH Levels Inside the Brain

    Mirage News

    2020/12/22

  75. 東北大、多機能ファイバと半導体センサを複合した生体への適用が可能なpH可視化プローブを開発

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Academic Activities 27

  1. Advanced Theory and Simulations

    2024/07 - 2024/07

    Activity type: Peer review

  2. IEEE Sensors

    2024/04 - 2024/04

    Activity type: Peer review

  3. PNAS

    2024/03 - 2024/03

    Activity type: Peer review

  4. Biosensors and Bioelectronics

    2024/03 - 2024/03

    Activity type: Peer review

  5. Advanced Healthcare Materials

    2024/02 - 2024/02

    Activity type: Peer review

  6. The 7th FRIS–TFC Collaboration Event /Tohoku NeuroTechSymposium (TNS)

    2023/07/31 - 2023/07/31

    Activity type: Competition, symposium, etc.

  7. 査読

    2023/06/12 - 2023/06/17

    Activity type: Peer review

  8. 査読

    2023/05/16 - 2023/05/16

    Activity type: Peer review

  9. 査読

    2023/03/17 - 2023/03/28

    Activity type: Peer review

  10. 査読

    2022/12/14 - 2022/12/22

    Activity type: Peer review

  11. Workshop on Biosystems Design –From nanotechnology to microfluidics in biotechnology

    2022/12/08 - 2022/12/08

    Activity type: Academic society, research group, etc.

  12. 査読

    2022/03/15 - 2022/03/17

    Activity type: Peer review

  13. The 5th FRIS-TFC Collaboration Event「Departing the Ivory Tower: A workshop on Entrepreneurial Research」

    2021/07/15 - 2021/07/15

  14. 査読

    2021/02/21 - 2021/02/25

    Activity type: Peer review

  15. 査読

    2020/09/27 - 2020/10/08

    Activity type: Peer review

  16. 査読

    2020/10/29 - 2020

    Activity type: Peer review

  17. Special Seminar (EPFL Professor Fabien Sorin) - Scalable nano-fabrication via engineering the interplay between viscosity, surface tension and microstructure

    2019/09/17 - 2019/09/17

  18. The 2nd FRIS-TFC JOINT Symposium: Unlocking the Brain- From Engineering Approaches

    2019/01/21 - 2019/01/21

  19. 査読

    2022/03/10 -

    Activity type: Peer review

  20. 査読

    2022/01/06 -

    Activity type: Peer review

  21. 査読

    2021/11/23 -

    Activity type: Peer review

  22. 査読

    2021/09/21 -

    Activity type: Peer review

  23. 査読

    2021/09/02 -

    Activity type: Peer review

  24. 査読

    2021/07/04 -

    Activity type: Peer review

  25. 査読

    2021/05/06 -

    Activity type: Peer review

  26. 査読

    2021/03/31 -

    Activity type: Peer review

  27. 査読

    2020/10/04 -

    Activity type: Peer review

Show all Show first 5