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J-GLOBAL ID:202401010935120226
Update date: Jan. 26, 2025 Okuda Yui
オクダ ユイ | Okuda Yui
Kyoto University Division of Forest and Biomaterial Science
About Kyoto University Division of Forest and Biomaterial Science
Job title: Program-Specific Researcher
Homepage URL (1): https://x.com/yui_okuda_0108
Research field (2):
Green/sustainable/environmental chemistry
, Green/sustainable/environmental chemistry
Research keywords (17):
Composite material
, Cellulose
, Biomass
, Organic-inorganic composite
, Structural material
, Forest science
, Biomineral
, Biomimetic
, Bioplastic
, Caprolactone
, Calcium carbonate
, Hydroxyapatite
, Starch
, Glucomannan
, Alginic acid
, Polysaccharide
, Cellulose nanofiber
Research theme for competitive and other funds (3): - 2024 - 2026 Hybridization of biomass deep eutectic solvent treated wood and inorganic crystals aiming to imitate biominerals
- 2024 - 2025 Development of high-toughness biomass structural material consisting of natural polysaccharides and livestock bone through nanohybridization
- 海のミネラルと異常繁殖した海藻及び二酸化炭素からなる丈夫なバイオマス構造材料の間発
- Yui Okuda, Ryosuke Sasaki, Eiichi Kido, Ken Hirota, Tadashi Mizutani. One-Pot Hybridization of Microfibrillated Cellulose and Hydroxyapatite as a Versatile Route to Eco-Friendly Mechanical Materials. ACS Omega. 2024. 9. 44. 44457-44464
- Tadashi Mizutani, Yui Okuda. Bioinspired Mechanical Materials-Development of High-Toughness Ceramics through Complexation of Calcium Phosphate and Organic Polymers. Ceramics. 2023. 6. 4. 2117-2133
- Yui Okuda, Eiichi Kido, Ken Hirota, Tadashi Mizutani. Water-Resistant Tough Composites of Cellulose Nanofibers and Hydroxyapatite. ACS Applied Polymer Materials. 2023. 5. 10. 8082-8088
- Yui Okuda, Ryosuke Shigemasa, Ken Hirota, Tadashi Mizutani. In Situ Crystallization of Hydroxyapatite on Carboxymethyl Cellulose as a Biomimetic Approach to Biomass-Derived Composite Materials. ACS Omega. 2022. 7. 14. 12127-12137
- Yui Okuda, Yasuhiro Aoyama, Ken Hirota, Tadashi Mizutani. Effects of Hydration on Mechanical Properties of Acylated Hydroxyapatite-Starch Composites. ACS Applied Polymer Materials. 2022. 4. 3. 1666-1674
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Hybridization of inorganic crystals and wood treated with deep eutectic solvents consisting of citric acid for the development of tough biomass structural materials
(10th IUPAC International Conference on Green Chemistry 2024) -
Hybridization of Chemically Modified Cellulose and Hydroxyapatite Applicable to Tough Biomass Materials bi Mimicking Bone
(EUBCE 2023 2023) -
Hybridization of chemically modified cellulose and hydroxyapatite applicable to tough biomass materials by imitating bone
(Cellulose Fibres Conference 2023 2023) -
Hybridization of chemically modified cellulose and hydroxyapatite applicable to tough biomass materials
(9th IUPAC International Conference on Green Chemistry 2022)
- 2020 - 2023 同志社大学大学院 理工学研究科 応用化学専攻 博士課程
- 2023/07 - 現在 京都大学大学院農学研究科 森林科学専攻 複合材料化学分野 特定研究員
- 2023/04 - 2023/06 同志社大学大学院理工学研究科 応用化学専攻 特任助手
- 2022/04 - 2023/03 Doshisha University
- 2021/04 - 2023/03 同志社大学 ハリス理化学研究所部門研究 研究補助員
- 2020/04 - 2023/03 同志社大学大学院理工学研究科 応用化学専攻 博士課程
- 2024/10 - 株式会社リバネス、綜研化学株式会社 リバネス研究費 綜研化学賞 海のミネラルと異常繁殖した海藻及び二酸化炭素からなる丈夫なバイオマス構造材料の間発
- 2024/10 - 10th IUPAC International Conference on Green Chemistry BEST POSTER AWARD Hybridization of inorganic crystals and wood treated with deep eutectic solvents consisting of citric acid for the development of tough biomass structural materials
- 2024/09 - エコテックグランプリ2024 (大日本印刷)DNP賞 植物と無機物からなる高靭性バイオマス材料の開発
- 2024/07 - 滋賀テックプランター2024 フォーカスシステムズ賞 水草のバイオマス構造材料化 ~滋賀から世界の環境保全へ~
- 2024/06 - 第13回JACI/GSCシンポジウム GSCポスター賞 ナノ複合化による天然多糖類と家畜骨からなる高靭性バイオマス構造材料の開発
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