Sekine Yurina

Homepage URL (1)： https://scholar.google.com/citations?user=AxQyLwwAAAAJ&hl=ja&oi=ao

Research field (6)： Catalytic processes and resource chemistry , Environmental materials/recycling technology , Environmental load reduction/restoration technology , Nanomaterials , Nanostructure physics , Polymer chemistry

Research keywords (9)： Environmental Materials , renewable materials , Porous materials , Food waste , Recycling , Adsorbent , microfluidics , Polymer chemistry , Small angle X-ray and neutron scattering

Research theme for competitive and other funds (13)：

2021 - 2026 宇宙空間におけるクラスレートハイドレートの形成メカニズム
2022 - 2025 親水性ゲルの内部ネットワークを反応場とする新規光触媒材料の開発
2021 - 2024 半永久開存性を示すradioactiveなハイドロゲル胆管ステントの創製
2021 - 2024 サブオングストロームレベルの微細細孔制御を活用した元素選択的分離技術の開発
2020 - 2023 中世以降の漆黒と平蒔絵材料を識別する自然科学的手法の確立

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Papers (40)：

Takuya Nankawa, Yurina Sekine, Daiju Matsumura, Kosuke Hiroi, Shin-ichi Takata, Yoshimi Kamiya, Takayuki Honda. Effects of Fe Ions, Ultraviolet Irradiation, and Heating on Microscopic Structures of Black Lacquer Films. Langmuir. 2024
Yurina Sekine, Takuya Nankawa, Tsuyoshi Sugita, Yoshiyasu Nagakawa, Yuki Shibayama, Ryuhei Motokawa, Tomoko Ikeda-Fukazawa. Freeze-crosslinking approach for preparing carboxymethyl cellulose nanofiber/zirconium hydrogels as fluoride adsorbents. Nanoscale. 2024
Yurina Sekine. Development of tough carboxymethyl cellulose hydrogels using freeze-concentrated layers. 2023. 30. 4
Yurina Sekine*, Takuya Nankawa, Kosuke Hiroi, Yojiro Oba, Yoshiyasu Nagakawa, Tsuyoshi Sugita, Yuki Shibayama, Tomoko Ikeda-Fukazawa. Nanocellulose hydrogels formed via crystalline transformation from cellulose I to II and subsequent freeze cross-linking reaction. Carbohydrate Polymers. 2023. 121538-121538
Takayuki Kumada, Ryuhei Motokawa, Yojiro Oba, Hiroshi Nakagawa, Yurina Sekine, Cyril Micheau, Yuki Ueda, Tsuyoshi Sugita, Atsushi Birumachi, Miki Sasaki, et al. Upgrade of the small-angle neutron scattering diffractometer SANS-J at JRR-3. Journal of Applied Crystallography. 2023

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MISC (6)：

Novel Hydrogel Properties by Microstructural Control of Carboxymethyl Cellulose Nanofibers Using Freezing. Novel Hydrogel Properties by Microstructural Control of Carboxymethyl Cellulose Nanofibers Using Freezing. 2023
関根由莉奈. 凍らせて,混ぜて,溶かすだけで高い強度と成型性を持つ新しいセルロースゲル材料を開発. 建設機械施工. 2022. 864. 94
南川卓也, 関根由莉奈. 廃棄豚骨を活用した高性能吸着剤の開発. Isotope News. 2021. 778
関根由莉奈. 凍結架橋法により形成するセルロースナノファイバーゲル. 型技術. 2021. 36. 8. 70-73
関根由莉奈, 南川卓也. 豚骨が高性能な有害金属吸着剤に. Chem-Station(Web). 2021

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Work history (4)：

2024/04 - 現在 Japan Atomic Energy Agency
2021 - 現在 Japan Atomic Energy Agency Materials Sciences Research Center Assistant Principal Researcher
2016/01 - 2021/12 Northwestern University
2012/04 - 2021/06 Japan Atomic Energy Agency Materials Sciences Research Center Scientist

Awards (5)：

2024/04 - 英国王立化学会 RSC, Nanoscale Nanoscale 2024 Emerging Investigators
2022/12 - The Chemical Society of Japan Winners of The Chemical Society of Japan Award for Outstanding Young Women Chemists for 2022 Development of Highly Functional Environmental Materials by Hierarchical Structure Control under Microscopic Solid-liquid Interfaces as Reaction Fields
2021/04 - Lecture award in the 101st CSJ annual meeting Development of high-strength cellulose nanofiber hydrogels by freeze-crosslinking
2021/03 - Japan Atomic Energy Agency JAEA Research Achievement Award
2016/04 - 平成28年度日本原子力学会北関東支部若手研究者発表会優秀発表賞

Association Membership(s) (6)：

American Chemical Society , THE CHEMICAL SOCIETY OF JAPAN , THE SOCIETY OF POLYMER SCIENCE, JAPAN , THE JAPANESE SOCIETY FOR NEUTRON SCIENCE , ナノ学会 , 廃棄物資源循環学会

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