YOSHIOKA Taiyo

ヨシオカタイヨウ | YOSHIOKA Taiyo

Affiliation and department：
Job title： Principal researcher

Research field (1)： Polymer materials

Research keywords (7)： physical property of fibers , polymer science , fiber structure , silk , nanofiber , X-ray structural analysis , hierarchical structure

Research theme for competitive and other funds (7)：

2023 - 2026 Evaluation of potentiality of silk nanofibrils as nano-reinforcing materials and development of application technology
2022 - 2026 Challenge for producing strong and tough regenerated-silk fibers by inducing the hierarchical fibrillar structure
2021 - 2024 Study on the fundamental moleculr science responsible for the diversity of hierarchical structures and physical properties of silks
2018 - 2021 Fabrication of high-toughness silk-fibers from regenerated silk proteins
2016 - 2017 Fabrication of High Toughness Silk Materials As Sustainable Resources

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Papers (72)：

Yoko Takasu, Nobuto Yamada, Katsura Kojima, Masatoshi Iga, Fumiko Yukuhiro, Tetsuya Iizuka, Taiyo Yoshioka. Fibroin heavy chain gene replacement with a highly ordered synthetic repeat sequence in Bombyx mori. Insect biochemistry and molecular biology. 2023. 104002-104002
Hidetoshi Teramoto, Katsura Kojima, Masatoshi Iga, Taiyo Yoshioka. Unique Material Properties of Bombyx mori Silk Fiber Incorporated with 3-Azidotyrosine. Biomacromolecules. 2023
Taiyo Yoshioka, Tsunenori Kameda, Manfred Burghammer, Christian Riekel. Mesoscale Confinement in Bagworm Silk: A Hidden Structural Organization. Nano Letters. 2023
Nobuto Yamada, Taiyo Yoshioka, Aki Sagisaka, Tsunenori Kameda, Ryoko T. Ichiki. Silk-assisted hatching of the Japanese bagworm moth Eumeta variegata (Lepidoptera: Psychidae). Entomological Science. 2022. 25. 4. e12528
Hiroko Yamamoto, Taiyo Yoshioka, Kenichi Funaki, Hiroyasu Masunaga, Eamor M. Woo, Kohji Tashiro. Synchrotron X-ray-analyzed inner structure of polyethylene spherulites and atomistic simulation of a trigger of the lamellar twisting phenomenon. Polymer Journal. 2022

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MISC (101)：

Taiyo YOSHIOKA, Tsunenori KAMEDA, Manfred Burghammer, Christian Riekel. Probing the structure of bagworm silk with scanning X-ray nanodiffraction. ESRF (European Synchrotron Radiation Facility) Spotlight on Science. 2023
Taiyo YOSHIOKA. 100 years from now, will humans be able to join a kind of silken animals?. Sen'i Gakkaishi. 2023. 79. 1. 7-8
Taiyo YOSHIOKA. Hierarchical structure of high-toughness silks: From amino acid sequence to fibril structure. J. Text. Mach. Soc. Jpn. 2021. 74. 11. 604-610
Taiyo YOSHIOKA. Study on Structural Origin of High Toughness in Silks. J. Soc. Fiber Sci. Technol. Jap. 2020. 76. 9. 372-376
Taiyo YOSHIOKA. Bagworm Silk: Ancient But Advanced Thread. Bulletin of Nippon Silk Center. 2020. 2019. 22. 45-52

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Books (7)：

延伸による高分子の構造と物性制御
S&T Publishing Inc. 2022
Science of Bombyx mori silkworms
Asakura Publishing Co., Ltd. 2020
新材料・新素材シリーズ高機能性繊維の最前線 ~医療, 介護, ヘルスケアへの応用~
シーエムシー出版(株) 2014
高分子の結晶制御技術と応用
シーエムシー出版(株) 2012
高分子材料の外観不良の原因分析と対策
情報機構 (株) 2012

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Lectures and oral presentations (28)：

Study on the hierarchical structure of silks that connects the primary structure and mehcanical properties
(The 8th Polymer Symposium (organized by KOBUNSHI-GAKKAI KANTO-SHIBU, KITAKANTO-CHIKU) 2024)
Importance of Hierarchical Structure Analysis in The Development of High-performance Silk-based Products, Seminar in Institute for Frontier Materials, Deakin University
(Seminar in Institute for Frontier Materials, Deakin University (Prof. Rangam Rajkhowa’s Lab.) 2023)
Challenge for Fabrication of Silk-based Sustainable Products Based on Microscopical Biomimetics of Hierarchical Structure in Native Silks
(26Th Congress and General Assembly of The International Union of Crystallography (IUCr2023) 2023)
Time-resolved X-ray scattering analysis reveals the stretch-induced structural change of silks
(Seikei-Kakou Annual Meeting 2023 2023)
Using available X-ray scattering instruments to reveal hierarchical structures of soft materials and connect them to the observed physical properties
(Workshop on advanced characterization and imaging facility in AMIC (The Advanced Materials Innovation Complex) 2023)

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Professional career (1)：

Dr of Eng. (Kyoto University)

Work history (6)：

2020/04 - 現在 National Agriculture and Food Research Organization Principal Researcher
2015/04 - 2020/03 National Agriculture and Food Research Organization Researcher
2010/09 - 2015/03 Toyota Technological Institute
2008/04 - 2010/08 Philipps University of Marburg
2006/11 - 2008/03 NIMS

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