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Position |
Professor |
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Degree |
Doctor (Engineering)(The University of Tokyo) |
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Research Field |
Nanotechnology/Materials / Polymer materials, Manufacturing Technology (Mechanical Engineering, Electrical and Electronic Engineering, Chemical Engineering) / Biofunction and bioprocess engineering, Nanotechnology/Materials / Synthetic organic chemistry |
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External Link |
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Graduating School 【 display / non-display 】
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Kyoto University Faculty of Engineering Graduated
- 1991.3
Graduate School 【 display / non-display 】
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The University of Tokyo Graduate School, Division of Engineering Master's Course Completed
- 1994.3
Studying abroad experiences 【 display / non-display 】
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1998.7-1998.9
University of California, Irvine Researcher
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1992.9-1993.9
Lund University Researcher
Campus Career 【 display / non-display 】
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KONAN UNIVERSITY Faculty of Frontiers of Innovative Research in Science and Technology Professor
2009.4
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KONAN UNIVERSITY Faculty of Science and Engineering Associate Professor
2007.4 - 2009.3
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先端生命工学研究所 兼任教員
2003.4
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KONAN UNIVERSITY Faculty of Science and Engineering Lecturer
2001.4 - 2006.3
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理学部 講師
2000.4 - 2001.3
External Career 【 display / non-display 】
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広島市立大学情報科学部
1994.4 - 2000.3
Country:Japan
Papers 【 display / non-display 】
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Nicotine-selective Polymeric Adsorbent Obtained by Molecular Imprinting with Excess Use of Itaconic Acid Reviewed
Haruka Nogami, Yuma Nakahori, Takashi Murashima, Jun Matsui
Chromatography 38 ( 1 ) 15 - 21 2017
Authorship:Corresponding author
Currently, nicotine is mostly analyzed by chromatography with pretreatment such as solid phase extraction (SPE). One of effective pretreatment techniques would be affinity extraction; however, there is no practical biomolecular affinity media available for SPE of nicotine. Molecular imprinting has been studied as a methodology for producing nicotine-selective synthetic affinity media, which relies on the formation of complex species between a target molecule (as template) and functional monomer; therefore, the selection of functional monomer is greatly important for obtaining molecularly imprinted polymers (MIPs) with high affinity and selectivity. In this study, itaconic acid (IA), which bears two carboxyl groups, was used as functional monomer in the synthesis of nicotine selective-MIPs. Other acidic monomers, such as methacrylic acid (MA), 2-(trifluoromethyl)acrylic acid (FM) and methyl itaconate (MI) were compared with IA to evaluate their usefulness as functional monomer. In chromatographic tests, the retention factor for nicotine on a MIP synthesized with itaconic acid (IP-IA16) was 40.4, which was 3.1 times that on a non-imprinted polymer (BP-IA16), while the retention factor on MIPs with the other monomers was 21.6 or less and was 1.1 times that on corresponding non-imprint blank polymers (BPs). In the selectivity test using cotinine, 3-methylpyridine and N-methylpyrrolidine as reference compounds, IP-IA16 showed the largest retention factor for nicotine, which was more than 4.4 times that of the other compounds, suggesting that nicotine-recognition sites were formed in MIPs by the molecular imprinting using IA as functional monomer.
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Synthesis and Chromatographic Evaluation of PFOS-selective Polymer by Molecular Imprinting
Rei Sakamoto, Keito Yuasa, Jun Matsui
Chromatography 35 ( Supplement1 ) 81 - 82 2014
Joint Work
Authorship:Lead author
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In Situ Synthesis of Metal/Polymer Nanocomposite Thin Films on Glass Substrates by using Highly Cross-Linked Polymer Matrices with Tailorable Ion Exchange Capabilities
Isao Toda, Takaaki Tsuruoka, Jun Matsui, Takashi Murashima, Hidemi Nawafune, Kensuke Akamatsu
RSC Advances 4 4723 - 4726 2014
Joint Work
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Synthesis and Chromatographic Evaluation of Affinity Polymer Having Zinc Porphyrin Moieties
Kota Matsuo, Yuki Minetoki, Jun Matsui
Chromatography 35 ( Supplement1 ) 79 - 80 2014
Joint Work
Authorship:Lead author
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Recognition of Perfluorooctanoic Acid (PFOA) by Fluorous Molecularly Imprinted Polymer
34 ( Supplement1 ) 21 - 22 2013
Joint Work
Authorship:Lead author
Books and Other Publications 【 display / non-display 】
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核酸超分子と分子認識 分子認識と超分子
杉本直己、松井淳( Role: Joint author , 139-156)
学術図書 2007.12
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分子インプリント高分子 バイオセンサ・ケミカルセンサ事典
松井淳( Role: Sole author , 63-72)
テクノシステム 2007.8
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インプリンティング ナノバイオ大辞典
松井淳( Role: Sole author)
テクノシステム 2007
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分子インプリント材料を分子認識素子として用いたセンサー バイオセンサーの先端科学技術と応用
竹内俊文,菱谷隆行,松井淳( Role: Joint author)
シーエムシー出版 2007
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Techniques for the in situ preparation of imprinted polymers Molecularly imprinted polymers: man-made mimics of antibodies and their application in analytical chemistry, Elsevier
松井淳( Role: Sole author , pp325-340)
Molecularly imprinted polymers: man-made mimics of antibodies and their application in analytical chemistry, Elsevier(単行本、2001 )Chapter 13, 2001.11
Review Papers (Misc) 【 display / non-display 】
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Molecularly imprinted nanocomposites for highly sensitive SPR detection of a non-aqueous atrazine sample
Jun Matsui, Megumi Takayose, Kensuke Akamatsu, Hidemi Nawafune, Katsuyuki Tamaki, Naoki Sugimoto
ANALYST 134 ( 1 ) 80 - 86 2009
Publisher:ROYAL SOC CHEMISTRY
A surface plasmon resonance (SPR) sensor highly sensitive and selective for the herbicide atrazine was composed by immobilizing atrazine-imprinted polymer with gold nanoparticles on a gold thin film as a sensor chip. In the detection, the atrazine-imprinted polymer was expected to work as synthetic receptor for selectively capturing atrazine in organic solvent, and the gold nanoparticles were expected to exhibit a coupling effect with the gold thin film to enhance the local electromagnetic field between the nanoparticles and the gold film, making the sensor chip highly sensitive for changes in microenvironmental polarity. Thus, a combination of the atrazine-imprinted polymer and gold nanoparticles enabled us to compose an SPR sensor demonstrating the detection of 5 pM atrazine in acetonitrile.
DOI: 10.1039/b803350a
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Preparation and Characterization of Au Nanoparticle/Polymer Composite Photonic Crystals
松井 淳
Trans. MRS-Japan 33 717 - 720 2008
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Molecular imprinting under molecular crowding conditions: An aid to the synthesis of a high-capacity polymeric sorbent for triazine herbicides
Jun Matsui, Shou Goji, Takashi Murashima, Daisuke Miyoshi, Satoshi Komai, Aiko Shigeyasu, Takuho Kushida, Toshifumi Miyazawa, Takashi Yamada, Katsuyuki Tamaki, Naoki Sugimoto
ANALYTICAL CHEMISTRY 79 ( 4 ) 1749 - 1757 2007.2
Publisher:AMER CHEMICAL SOC
Molecular crowding, an important feature of the molecular environments in biological cells, was applied to the synthesis of antibody-mimic polymers selective for a group of biologically active compounds, the triazine herbicides. Synthesis of these polymers was conducted using molecular imprinting under molecular crowding conditions, whereby atrazine (a template molecule) was complexed with methacrylic acid (a functional monomer) in the presence of a macromolecular crowding agent (either poly(methyl methacrylate) (PMMA) or polystyrene (PS)) followed by cross-linking with ethylene glycol dimethacrylate. After removal of atrazine from the polymer matrix, the retention properties and selectivity of the resultant polymers were assessed by chromatographic tests. The addition of a crowding-inducing agent resulted in polymers with superior retention properties and excellent selectivity for triazine herbicides, as compared to polymers prepared without addition of a crowding-inducing agent. An imprinted polymer prepared in the presence of PS as a crowding agent exhibited a retention factor for atrazine an order of magnitude larger than that of an imprinted polymer prepared in the absence of a crowding agent. NMR results suggest that the crowding agent is capable of promoting hydrogen bond formation between atrazine and methacrylic acid, which could account for the effect of crowding on molecular imprinting.
DOI: 10.1021/ac060441m
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Molecularly-imprinted polymeric logic gates selective for predetermined chemical input species
Jun Matsui, Takuji Sodeyama, Katsuyuki Tamaki, Naoki Sugimoto
CHEMICAL COMMUNICATIONS ( 30 ) 3217 - 3219 2006
Publisher:ROYAL SOC CHEMISTRY
Selective AND and OR logic gates were fabricated by molecular imprinting with simultaneous use of two kinds of template species, with the resultant binding behaviour (AND or OR) of the imprinted polymers governed by intermolecular interactions between the two template species.
DOI: 10.1039/b604354b
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An SPR Sensor Chip for Sensitive Detection of Small Molecules Using Molecularly Imprinted Polymer with Embedded Gold Nanoparticle
SUGIMOTO Naoki, AKAMATSU Kensuke, HARA Noriaki, MIYOSHI Daisuke, NAWAFUNE Hidemi, TAMAKI Katsuyuki, MATSUI Jun
Anal. Chem. 77 ( 13 ) 4282 - 4285 2005
Presentations 【 display / non-display 】
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ケルセチンを擬似テンプレート分子に用いるシアニジン選択的高分子材料の合成
石田理子、大西さくら、藤井敏司、村嶋貴之、松井淳
第 30 回クロマトグラフィーシンポジウム (岐阜) 2023.6 クロマトグラフィー科学会
Event date: 2023.6
Country:Japan
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カフェイン分子インプリントポリマー合成のためのポルフィリン型モノマーの設計
森岡優花、寺尾和花、藤井敏司、村嶋貴之、松井淳
第 30 回クロマトグラフィーシンポジウム (岐阜) 2023.6 クロマトグラフィー科学会
Event date: 2023.6
Country:Japan
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擬似分子インプリンティングによるアントシアニン選択的高分子材料の合成
大西さくら、井戸遥香、末永壱成、石田理子、藤井敏司、村嶋貴之、松井淳
第33回クロマトグラフィー科学会議 (北里大学) 2022.11 クロマトグラフィー科学会
Event date: 2022.11
Country:Japan
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鉄ポルフィリンモノマーと含フッ素架橋剤を用いたモレキュラーインプリンティングによるPFOA認識高分子の合成
岩本啓太郎、藤井敏司、村嶋貴之、松井淳
第33回クロマトグラフィー科学会議 (オンライン) 2022.11 クロマトグラフィー科学会
Event date: 2022.11
Country:Japan
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Switching Separation Modes in Quercetin-imprinted Polymer Bearing Iron Porphyrin Residues
Utano Kawashima, Miki Nakaoka, Nodoka Terao, Ryuya Sato, Haruka Ido, Sakura Onishi, Issei Suenaga, Takashi Murashima, Jun Matsui
The 28th Chromatography Symposium (Tokushima University) 2021.6 The Society of Chromatographic Sciences
Event date: 2021.6
Industrial property rights 【 display / non-display 】
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多糖ーペプチドグリカン複合体含有粒子
辻浩和,森山薫,志田寛,千葉勝由,野本康二,甲元一也,長濱宏治,松井淳
Application no:2014-234585
Announcement no:6358933
Country of applicant:Domestic
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「トリアジン化合物の分解触媒ポリマー及び該ポリマーの製造法並びに使用法」
松井淳
Application no:2001-79418
Announcement no:2001-79418
Patent/Registration no:2001-79418
Country of applicant:Domestic
特許、発明者、特許公開2001-79418、2001.3.27
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「擬似インプリンティング法を用いた農薬の選択的固相抽出」
松井淳
Application no:WO01/014871
Announcement no:WO01/014871
Patent/Registration no:WO01/014871
Country of applicant:Domestic
特許、発明者、国際公開番号WO01/014871、2001.3.1
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「人工レセプターの評価法」
松井淳
Application no:2000-74900
Announcement no:2000-74900
Patent/Registration no:2000-74900
Country of applicant:Domestic
特許、発明者、特許公開2000-74900、2000.3.14
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「情報発信型分子認識高分子およびその調製法ならびに使用方法」
松井淳
Application no:11-255948
Announcement no:11-255948
Patent/Registration no:11-255948
Country of applicant:Domestic
特許、発明者、特許公開平11-255948、1999.9.21
Grant-in-Aid for Scientific Research 【 display / non-display 】
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人工抗体ポリマー・ナノコンポジットによる有機フッ素化合物の認識とセンシング
2017.4 - 2020.3
JSPS Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research(C)
パーフルオロオクタン酸(PFOA)やパーフルオロオクタンスルホン酸(PFOS)など、環境負荷物質として懸念されている有機フッ素化合物(PFCs)に対して選択的なカラリメトリック材料を構築することを目的として研究を行っている。
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フッ素化合物を認識する人工抗体レセプターの合成と応用
2009.4 - 2012.3
JSPS Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research(C)
フッ素化合物間の相互作用(フルオラス相互作用)を活用した分子インプリンティング法により、分子認識樹脂を合成することを目的として研究を行った。
環境および生体内への蓄積が懸念されている含フッ素界面活性剤パーフルオロオクタン酸(PFOA)を認識する分子インプリント樹脂を合成した。同樹脂を固定相としてHPLC-MSにて分子認識能を評価したところ、PFOAに対する親和性および選択性が認められた。HPLC-MS分析における溶離液の素性を変えて、そのカラム保持能への影響を調べたところ、同樹脂は水素結合とフルオラス相互作用によりPFOAを認識していることが示唆された。 -
無機ナノ粒子・有機高分子ハイブリッド膜を用いる超高感度SPRセンサーの開発
2007.4 - 2009.3
JSPS Grants-in-Aid for Scientific Research Grant-in-Aid for Scientific Research(C)
低分子量の有機化合物を有機溶媒中において高感度に検出できる表面プラズモン共鳴(SPR)センサーを構築することを目的として研究を行った。
除草剤アトラジンを標的分子として、金ナノ粒子内包型分子認識高分子を金基板上で調製した。高分子の合成にはモレキュラーインプリンティング法を用いた。この基板を用いてアセトニトリル中でアトラジンの検出を試みたところ、約5pMのアトラジンを選択的に検出することが可能であった。 -
金ナノ粒子を固定化したインプリント高分子型センサー素子の開発
2003.4 - 2005.3
JSPS Grants-in-Aid for Scientific Research Grant-in-Aid for Young Scientists(B)
金ナノ粒子の特性を活かして高感度なセンサー高分子材料を合成し、生体分子の新規検出システムを構築する.
領域・整理
・課題番号
4706
8515
15750149
研究金額
2100000 -
標的分子に応答して触媒活性を示すモレキュラーインプリント人工レセプター
2001.4 - 2002.3
JSPS Grants-in-Aid for Scientific Research Grant-in-Aid for Young Scientists(B)
分子認識部位と触媒部位をあわせ持ち、分子認識部位への標的分子の結合がトリガーとなって、触媒部位が活性化される人工レセプターポリマーを構築する。
領域・整理
・課題番号
複合領域(生物化学)・811・13780477
研究金額
500000
Preferred joint research theme 【 display / non-display 】
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生命分子認識高分子(ペプチドおよび樹脂)のセンサー化および診断試薬化
Social Activities 【 display / non-display 】
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大阪府立大手前高等学校集中セミナー
Role(s): Lecturer
2020.12
Audience: High school students
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第1回ポートアイランドサイエンスフェスティバル
Role(s): Lecturer
2019.10
Audience: Schoolchildren
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大阪府立大手前高等学校SSH運営指導委員
Role(s): Advisor
2018.4
Audience: High school students
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大阪府立大手前高等学校SSHサイエンス探究発表会協力委員
2012.7
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大阪府立大手前高等学校SSHサイエンス探究発表会協力委員
2011.7