Shirosaki Tomohiro

シロサキトモヒロ | Shirosaki Tomohiro

Affiliation and department：
Homepage URL (1)： https://www.kumamoto-iri.jp/

Research field (1)： Organic functional materials

Research keywords (5)： supramolecule , Drug delivery system , Hydroxyapatite , microbeads , cellulose

Research theme for competitive and other funds (12)：

2022 - 2025 Dvelopment of environmental friendlly microbeads using cellulose/removal dicarboxylic acid
2019 - 2022 Development of bioactive ceramics using cellulose/apatite composite spherical beads
2015 - 2019 Elucidation of production, isomerization and accumulation processes of polycyclic aromatics in Lanzhou-Yellow River and Wuxi-Taihu Lake
2017 - 2018 モイストセルロースマイクロ球状粒子を用いた湿潤性シリコーン創傷被覆材の開発
2015 - 2018 organic/inorganic core-shall elastic spherical blast materials having One-Stop super abrasive properties

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Papers (29)：

Naoya Ryu, Yusei Yamamoto, Yutaka Okazaki, Nanami Hano, Yuki Iwamoto, Tomohiro Shirosaki, Shoji Nagaoka, Reiko Oda, Hirotaka Ihara, Makoto Takafuji. Controlled packing of chiral assembly scaffolds to promote chiral J-aggregation of carbocyanine dyes. Chemical Communications. 2023. 59. 80. 11979-11982
Huiho JEONG, Teruhiko KUSANO, Sylvester ADDAI-ARHIN, Willy Cahya NUGRAHA, Randy NOVIRSA, Quang PHAN DINH, Tomohiro SHIROSAKI, Emiko FUJITA, Yutaka KAMEDA, Hyeon Seo CHO, Yasuhiro ISHIBASHI, Koji ARIZONO. A Study on the Differences of Microplastics Distributions in the Surface Freshwater Collected by 100 and 355 μm Meshes. 2022. 2. 22-34
Naoya Ryu, Tomoyuki Harada, Yutaka Okazaki, Kyohei Yoshida, Tomohiro Shirosaki, Reiko Oda, Yutaka Kuwahara, Makoto Takafuji, Hirotaka Ihara, Shoji Nagaoka. Co-assembling system that exhibits bright circularly polarized luminescence. Materials Advances. 2022. 3. 7. 3123-3127
Naoya Ryu, Tsutomu Kawaguchi, Hiroshi Yanagita, Yutaka Okazaki, Thierry Buffeteau, Kyohei Yoshida, Tomohiro Shirosaki, Shoji Nagaoka, Makoto Takafuji, Hirotaka Ihara, et al. Chirality induction on non-chiral dye-linked polysilsesquioxane in nanohelical structures. Chemical communications (Cambridge, England). 2020. 56. 7241-7244
Kanako Saita, Shoji Nagaoka, Tomohiro Shirosaki, Maki Horikawa, Hirotaka Ihara. Dispersible chitosan particles showing bacteriostatic effect against Streptococcus mutans and their dental polishing effect. Bioscience, Biotechnology, and Biochemistry. 2020. 56. 30-37

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MISC (25)：

城崎智洋, 龍直哉, 堀川真希, 高藤誠, 永岡昭二, 永岡昭二. Development of macroporous ceramics using TEMPO-oxidized cellulose microbeads. セルロース学会年次大会講演要旨集. 2021. 28th
堀川真希, 大塚麟太郎, 城崎智洋, 高藤誠, 永岡昭二, 永岡昭二. Thermo-responsible dimming glass utilizing characteristics of cellulose nanofiber-Acceleration of thermo-responsibility for pNIPAM using PEDOT/s-CNF. セルロース学会年次大会講演要旨集. 2021. 28th
堀川真希, 城崎智洋, 龍直哉, 大城善郎, 櫻井英夫, 永岡昭二, 伊原博隆. PEDOT/硫酸化セルロースナノクリスタル複合材料の電気特性とその結晶性評価-PEDOT-Sulfate Nanocrystalline Cellulose Composites and Their Characterization. 熊本県産業技術センター研究報告 = Reports of Kumamoto Industrial Research Institute / 熊本県産業技術センター編. 2019. 55. 45-51
堀川真希, 堀川真希, 角椋太, 吉田恭平, 城崎智洋, 城崎智洋, 永岡昭二, 永岡昭二, 永岡昭二, 伊原博隆, et al. 竹CNFを骨格としたPEDOT/CSNF薄膜の高導電化. セルロース学会年次大会講演要旨集. 2018. 25th
KANG Yangwon, 城崎智洋, 城崎智洋, 堀川真希, 堀川真希, 龍直哉, 龍直哉, 高藤誠, 高藤誠, 永岡昭二, et al. エラストマーと無機材複合化による柔軟・剛直二層コアシェル粒子の開発とその力学特性. 化学関連支部合同九州大会・外国人研究者交流国際シンポジウム講演予稿集. 2017. 54th

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Patents (14)：

吸水性粒子およびその製造方法
粘土鉱物用吸着材、粘土鉱物材料の製造方法および粘土鉱物複合体
導電性ポリマー組成物
熱伝導性複合粒子および樹脂成形体
複合粒子およびその製造方法

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Books (5)：

海洋汚染問題を解決する生分解性プラスチック開発: 分解性評価から新素材まで
2023 ISBN:4860438140
生分解,バイオマスプラスチックの開発と応用
技術情報協会 2020
生分解性プラスチックの素材・技術開発
株式会社エヌ・ティー・エス 2019
脱石油系プラスチックビーズの開発
2018
ゲルの安定化と機能性付与・次世代のへの応用開発
(株)技術情報協会 2013

Lectures and oral presentations (101)：

Macroporous calcium phosphate prepared using TEMPO-oxidized cellulose microbeads and cellulose microfibers as template
(The 29th Annual Meeting of the Cellulose Society of Japan 2022)
Development of macroporous ceramics using TEMPO-oxidized cellulose microbeads
(2021)
TEMPO触媒酸化反応による吸水性セルロースマイクロ球状粒子の開発と応用展開
(令和2年度第2回CNF・公設試研究者向け勉強会 2021)
多糖ナノファイバー/pNIPAM/PEDOTナノコンポジットの調製と温度応答性の迅速化
(69th Symposium on Macromolecules 2020)
Development of bioactive hydroxyapatite using TEMPO-oxidized cellulose microbeads
(69th Symposium on Macromolecules 2020)

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Works (1)：

シクロホスファゼンに関する研究
1999 - 2002

Education (3)：

2002 - 2005 Kumamoto University Graduate School of Science and Technology
2000 - 2002 Kumamoto University Graduate School of Science and Technology
1996 - 2000 Kumamoto University Faculty of Engineering Department of Applied Chemistry and Biochemistry

Professional career (1)：

博士(学術) (熊本大学)

Work history (4)：

2023/04 - 現在 Kumamoto Industrial Research Institute
2019/04 - 2023/03 Kumamoto Industrial Research Institute
2009/04 - 2019/03 Kumaoto Industrial Research Institute Material Development Department Researcher
2005/04 - 2009/03 NOF corporation DDS Development

Awards (5)：

2019/11 - 公益社団法人発明協会九州地方発明表彰九州経済産業局長賞高放熱絶縁シートを実現した複合粒子
2019/05 - 熊本県庁熊本県知事蒲島賞 CNFを活用し環境に優しく優れた機能をもつ素材の開発に成功
2004/10 - 日本化学会西日本大会ポスター賞シリンドリカルシクロホスファゼン誘導体による新規オルガノゲル形成剤の創製
2003/11 - 15th Japan-Korea Joint Seminar for Young Organic Chemists Poster Award Synthesis and characterization of novel L-glutamide derived organogelator based on cyclophosphazene core
2002/11 - 14th Japan-Korea Joint Seminar for Young Organic Chemists Poster Award Synthesis and application of alkylazobenzene-containing cyclophosphazene as photo-sensitive trigger

Association Membership(s) (2)：

THE CELLULOSE SOCIETY OF JAPAN , THE SOCIETY OF POLYMER SCIENCE, JAPAN

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