Performance information

• pH‐ and Saccharide‐Responsive Cyclometalated Iridium(III) Complexes with Boronic Acid Moieties Displaying a Wide Range of Phosphorescence Colors　　　　　　　　　　　　　　　
  Yota Suzuki; Ikumi Imanishi; Koki Shiba; Shino Furuichi; Mari Takata; Tomoaki Sugaya; Koji Ishihara
  Chemistry – A European Journal, Jan. 2025, [Reviewed], [Lead]
  Scientific journal
  DOI：https://doi.org/10.1002/chem.202404010
  DOI ID：10.1002/chem.202404010, ORCID：175655990
• Reactivity and detailed reaction mechanism of quasi‐tetrahedral o‐azophenylboronic acid
  Azusa Kuroda; Yota Suzuki; Yoshihisa Shintani; Tomoaki Sugaya; Koji Ishihara
  International Journal of Chemical Kinetics, May 2024, [Reviewed]
  Abstract
  
  Quasi‐tetrahedral o‐azophenylboronic acid (azoB‐ROH), which contains the protic solvent ROH, is a key species in the colorimetric sensing of saccharides by o‐azophenylboronic acid (azoB). In this study, we compared the reactivity of azoB‐ROH with that of trigonal azoB and tetrahedral o‐azophenylboronate (azoB‐OH⁻), and clarified the reaction mechanism of azoB‐ROH with cis‐1,2‐cyclopentanediol and D‐glucose. Analysis of the kinetics of the reactions of azoB with cis‐1,2‐cyclopentanediol and D‐glucose in DMSO:water = 1:9 and azoB with cis‐1,2‐cyclopentanediol in tetrahydrofuran containing a small amount of methanol revealed that there was not much difference in the reactivity of azoB‐H₂O and azoB‐OH⁻, although the reactivity of azoB was higher than that of azoB‐MeOH, that is, the reaction mechanism of azoB‐H₂O was essentially the same as that of azoB‐OH⁻.
  Wiley, Scientific journal
  DOI：https://doi.org/10.1002/kin.21726
  DOI ID：10.1002/kin.21726, ISSN：0538-8066, eISSN：1097-4601
• Detailed Reaction Mechanism of Anthracene‐Bridged bis‐(3‐Pyridiniumboronic Acid) Chemosensor with D‐Glucose　　　　　　　　　　　　　　　
  Rei Tanaka; Keigo Matsuo; Shota Suzuki; Gento Mikami; Yota Suzuki; Tomoaki Sugaya; Satoshi Iwatsuki; Masahiko Inamo; Koji Ishihara
  ChemistrySelect, Mar. 2024, [Reviewed]
  Scientific journal
  DOI：https://doi.org/10.1002/slct.202304924
  DOI ID：10.1002/slct.202304924, ORCID：155378390
• Exploring the Potential of Nanogels: From Drug Carriers to Radiopharmaceutical Agents　　　　　　　　　　　　　　　
  Manja Kubeil; Yota Suzuki; Maria Antonietta Casulli; Rozy Kamal; Takeshi Hashimoto; Michael Bachmann; Takashi Hayashita; Holger Stephan
  Advanced Healthcare Materials, Sep. 2023, [Reviewed], [Invited]
  Scientific journal
  DOI：https://doi.org/10.1002/adhm.202301404
  DOI ID：10.1002/adhm.202301404, ORCID：142498939
• Cyclodextrin Host–Guest Recognition in Glucose-Monitoring Sensors　　　　　　　　　　　　　　　
  siamak javanbakht; Sima Darvishi; Faeze Dorchei; Maryam Hosseini-Ghalehno; Marjan Dehghani; Malihe Pooresmaeil; Yota Suzuki; Qurat Ul Ain; Leire Ruiz Rubio; ahmad shaabani; Takashi Hayashita; Hassan Namazi; Abolfazl Heydari
  ACS Omega, Volume：8, Number：37, First page：33202, Last page：33228, Sep. 2023, [Reviewed]
  American Chemical Society ({ACS}), English, Scientific journal
  DOI：https://doi.org/10.1021/acsomega.3c03746
  DOI ID：10.1021/acsomega.3c03746, ISSN：2470-1343, ORCID：143152075
• High-Throughput Analysis of Bacterial Toxic Lipopolysaccharide in Water by Dual-Wavelength Monitoring Using a Ratiometric Fluorescent Chemosensor　　　　　　　　　　　　　　　
  Hiroshi Kimoto; Moeka Takahashi; Masakage Masuko; Kai Sato; Yuya Hirahara; Masamitsu Iiyama; Yota Suzuki; Takeshi Hashimoto; Takashi Hayashita
  Analytical Chemistry, Aug. 2023, [Reviewed]
  Scientific journal
  DOI：https://doi.org/10.1021/acs.analchem.3c01870
  DOI ID：10.1021/acs.analchem.3c01870, ORCID：139631998
• Supramolecular Assemblies of Fluorescent Nitric Oxide Photoreleasers with Ultrasmall Cyclodextrin Nanogels
  Tassia J. Martins; Cristina Parisi; Yota Suzuki; Takeshi Hashimoto; Antonia Nostro; Giovanna Ginestra; Takashi Hayashita; Salvatore Sortino
  Molecules, Volume：28, Number：15, First page：5665, Last page：5665, Jul. 2023, [Reviewed]
  Developing biocompatible nitric oxide (NO) photoreleasing nanoconstucts is of great interest in view of the large variety of biological roles that NO plays and the unique advantage light offers in controlling NO release in space and time. In this contribution, we report the supramolecular assemblies of two NO photodonors (NOPDs), NBF-NO and RHD-NO, as water-dispersible nanogels, ca. 10 nm in diameter, based on γ-cyclodextrins (γ-CDng). These NOPDs, containing amino-nitro-benzofurazan and rhodamine chromophores as light harvesting antennae, can be activated by visible light, are highly hydrophobic and can be effectively entrapped within the γ-CDng. Despite being confined in a very restricted environment, neither NOPD suffer self-aggregation and preserve their photochemical and photophysical properties well. The blue light excitation of the weakly fluorescent γ-CDng/NBF-NO complex results in effective NO release and the concomitant generation of the highly green, fluorescent co-product, which acts as an optical NO reporter. Moreover, the green light excitation of the persistent red fluorescent γ-CDng/RHD-NO triggers NO photorelease without significantly modifying the emission properties. The activatable and persistent fluorescence emissions of the NOPDs are useful for monitoring their interactions with the Gram-positive methicillin-resistant Staphylococcus aureus, whose growth is significantly inhibited by γ-CDng/RHD-NO upon green light irradiation.
  MDPI AG, English, Scientific journal
  DOI：https://doi.org/10.3390/molecules28155665
  DOI ID：10.3390/molecules28155665, eISSN：1420-3049
• Aggregation-Based Bacterial Separation with Gram-Positive Selectivity by Using a Benzoxaborole-Modified Dendrimer
  Ayame Mikagi; Yotaro Takahashi; Nobuyuki Kanzawa; Yota Suzuki; Yuji Tsuchido; Takeshi Hashimoto; Takashi Hayashita
  Molecules, Feb. 2023, [Reviewed]
  Scientific journal
  DOI：https://doi.org/10.3390/molecules28041704
  DOI ID：10.3390/molecules28041704, ORCID：128486461
• Recognition of d-Glucose in Water with Excellent Sensitivity, Selectivity, and Chiral Selectivity Using γ-Cyclodextrin and Fluorescent Boronic Acid Inclusion Complexes Having a Pseudo-diboronic Acid Moiety　　　　　　　　　　　　　　　
  Yota Suzuki; Yuji Mizuta; Ayame Mikagi; Tomoyo Misawa-Suzuki; Yuji Tsuchido; Tomoaki Sugaya; Takeshi Hashimoto; Kazuhiro Ema; Takashi Hayashita
  ACS Sensors, Jan. 2023, [Reviewed], [Lead, Corresponding]
  Scientific journal
  DOI：https://doi.org/10.1021/acssensors.2c02087
  DOI ID：10.1021/acssensors.2c02087, ORCID：125027989
• The Concept of Cyclodextrin-Based Supramolecular Analytical Reagents
  Yota SUZUKI; Takeshi HASHIMOTO; Takashi HAYASHITA
  Oleoscience, Volume：23, Number：7, First page：367, Last page：375, 2023, [Invited], [Lead]
  Japan Oil Chemists' Society, Scientific journal
  DOI：https://doi.org/10.5650/oleoscience.23.367
  DOI ID：10.5650/oleoscience.23.367, ISSN：1345-8949, eISSN：2187-3461
• Preparation of ultrasmall cyclodextrin nanogels by an inverse emulsion method using a cationic surfactant
  Satomi Takeuchi; Andrea Cesari; Suzuka Soma; Yota Suzuki; Maria Antonietta Casulli; Kai Sato; Fabrizio Mancin; Takeshi Hashimoto; Takashi Hayashita
  Chemical Communications, Volume：59, Number：27, First page：4071, Last page：4074, 2023, [Reviewed]
  Ultrasmall cyclodextrin nanogels were prepared by an inverse emulsion method using a cationic surfactant. These nanogels provide a highly hydrophobic inner surface, allowing efficient solubilisation of hydrophobic compounds in water.
  Royal Society of Chemistry (RSC), Scientific journal
  DOI：https://doi.org/10.1039/D3CC00523B
  DOI ID：10.1039/D3CC00523B, ISSN：1359-7345, eISSN：1364-548X, ORCID：131163303
• Selective ATP recognition by boronic acid-appended cyclodextrin and a fluorescent probe supramolecular complex in water
  Yota Suzuki; Masakage Masuko; Takeshi Hashimoto; Takashi Hayashita
  New Journal of Chemistry, Volume：47, Number：15, First page：7035, Last page：7040, 2023, [Reviewed], [Lead]
  ATP recognition has been achieved by exploiting the self-assembly of boronic acid-appended cyclodextrin, a fluorescent probe, and ATP through multiple interactions.
  Royal Society of Chemistry (RSC), Scientific journal
  DOI：https://doi.org/10.1039/D3NJ00139C
  DOI ID：10.1039/D3NJ00139C, ISSN：1144-0546, eISSN：1369-9261, ORCID：130699875
• A Supramolecular Nanoassembly of Lenvatinib and a Green Light-Activatable NO Releaser for Combined Chemo-Phototherapy
  Francesca Laneri; Nadia Licciardello; Yota Suzuki; Adriana C. E. Graziano; Federica Sodano; Aurore Fraix; Salvatore Sortino
  Pharmaceutics, Dec. 2022, [Reviewed]
  Scientific journal
  DOI：https://doi.org/10.3390/pharmaceutics15010096
  DOI ID：10.3390/pharmaceutics15010096, ORCID：125456266
• Detailed Reaction Mechanism of Bis‐( o ‐Aminomethylphenylboronic Acid)‐based Receptors with Various Length Methylene‐chain Linkers with D‐Glucose　　　　　　　　　　　　　　　
  Yuki Ohno; Rei Tanaka; Yota Suzuki; Tomoaki Sugaya; Satoshi Iwatsuki; Masahiko Inamo; Koji Ishihara
  ChemistrySelect, Volume：7, Number：29, Aug. 2022, [Reviewed]
  Wiley, English, Scientific journal
  DOI：https://doi.org/10.1002/slct.202200603
  DOI ID：10.1002/slct.202200603, ISSN：2365-6549, ORCID：117269969
• Simple and Rapid Endotoxin Recognition Using a Dipicolylamine-Modified Fluorescent Probe with Picomolar-Order Sensitivity　　　　　　　　　　　　　　　
  Hiroshi Kimoto; Yota Suzuki; Yu Ebisawa; Masamitsu Iiyama; Takeshi Hashimoto; Takashi Hayashita
  ACS Omega, Jul. 2022, [Reviewed]
  Scientific journal
  DOI：https://doi.org/10.1021/acsomega.2c02935
  DOI ID：10.1021/acsomega.2c02935, ORCID：115899649
• A simple supramolecular complex of boronic acid-appended β-cyclodextrin and a fluorescent boronic acid-based probe with excellent selectivity for d-glucose in water　　　　　　　　　　　　　　　
  Ko Sugita; Yota Suzuki; Yuji Tsuchido; Shoji Fujiwara; Takeshi Hashimoto; Takashi Hayashita
  RSC Advances, 2022, [Reviewed], [Lead]
  Scientific journal
  DOI：https://doi.org/10.1039/D2RA03567G
  DOI ID：10.1039/D2RA03567G, ORCID：115818584
• Ratiometric fluorescence sensing of d-allulose using an inclusion complex of γ-cyclodextrin with a benzoxaborole-based probe　　　　　　　　　　　　　　　
  Yota Suzuki; Takeshi Hashimoto; Takashi Hayashita
  RSC Advances, Volume：12, Number：19, First page：12145, Last page：12151, 2022, [Reviewed], [Lead, Corresponding]
  Royal Society of Chemistry ({RSC}), Scientific journal
  DOI：https://doi.org/10.1039/D2RA00749E
  DOI ID：10.1039/D2RA00749E, ORCID：111986372
• O-Azophenylboronic Acid-Based Colorimetric Sensors for d-Fructose: O-Azophenylboronic Acids with Inserted Protic Solvent Are the Key Species for a Large Color Change
  Suzuki, Y.; Ikeda, A.; Ohno, K.; Fujihara, T.; Sugaya, T.; Ishihara, K.
  Journal of Organic Chemistry, Volume：85, Number：15, 2020, [Reviewed], [Lead]
  Scientific journal
  DOI：https://doi.org/10.1021/acs.joc.0c01011
  DOI ID：10.1021/acs.joc.0c01011, ISSN：1520-6904, ORCID：91709132, SCOPUS ID：85090008439
• Reactivity of Boronic Acids toward Catechols in Aqueous Solution
  Suzuki, Y.; Kusuyama, D.; Sugaya, T.; Iwatsuki, S.; Inamo, M.; Takagi, H.D.; Ishihara, K.
  Journal of Organic Chemistry, Volume：85, Number：8, 2020, [Reviewed], [Lead]
  Scientific journal
  DOI：https://doi.org/10.1021/acs.joc.9b03326
  DOI ID：10.1021/acs.joc.9b03326, ISSN：1520-6904, ORCID：91709131, SCOPUS ID：85079069201
• Highly Selective Aluminum(III) Ion Sensing with Luminescent Iridium(III) Complexes Bearing a Distorted 2,2′-Bipyridine-3,3′-diol Moiety Utilizing a Rigidified Seven-Membered Chelate Ring
  Suzuki, Y.; Mizuno, I.; Tabei, Y.; Fujioka, Y.; Shinozaki, K.; Sugaya, T.; Ishihara, K.
  Inorganic Chemistry, Volume：58, Number：15, 2019, [Reviewed], [Lead]
  Scientific journal
  DOI：https://doi.org/10.1021/acs.inorgchem.9b00373
  DOI ID：10.1021/acs.inorgchem.9b00373, ISSN：1520-510X, ORCID：91709133, SCOPUS ID：85070918712
• Axial ligand substitution reactions of head-to-head α-pyridonato-bridged Pt(III) binuclear complexes bearing various equatorial ligands with chloride ion and olefin
  Kusuhara, S.; Kojima, K.; Suzuki, Y.; Morita, Y.; Sugaya, T.; Iwatsuki, S.; Ishihara, K.; Matsumoto, K.
  Journal of Molecular Liquids, Volume：262, 2018, [Reviewed]
  Scientific journal
  DOI：https://doi.org/10.1016/j.molliq.2018.04.024
  DOI ID：10.1016/j.molliq.2018.04.024, ISSN：0167-7322, ORCID：91709134, SCOPUS ID：85046816096
• Detailed Reaction Mechanism of Phenylboronic Acid with Alizarin Red S in Aqueous Solution: Re-Investigation with Spectrophotometry and Fluorometry
  Suzuki, Y.; Sugaya, T.; Iwatsuki, S.; Inamo, M.; Takagi, H.D.; Odani, A.; Ishihara, K.
  ChemistrySelect, Volume：2, Number：10, 2017, [Reviewed], [Lead]
  Scientific journal
  DOI：https://doi.org/10.1002/slct.201700166
  DOI ID：10.1002/slct.201700166, ISSN：2365-6549, ORCID：91709129, SCOPUS ID：85041735307
• Detailed Mechanism of the Reaction of Phenylboronic Acid Derivatives with D-Fructose in Aqueous Solution: A Comprehensive Kinetic Study
  Suzuki, Y.; Shimizu, M.; Okamoto, T.; Sugaya, T.; Iwatsuki, S.; Inamo, M.; Takagi, H.D.; Odani, A.; Ishihara, K.
  ChemistrySelect, Volume：1, Number：16, 2016, [Reviewed], [Lead]
  Scientific journal
  DOI：https://doi.org/10.1002/slct.201600875
  DOI ID：10.1002/slct.201600875, ISSN：2365-6549, ORCID：91709130, SCOPUS ID：85041706853

• 人工分子導入型DNAライブラリーを用いるVEGF結合型DNAアプタマーのシングルラウンド-CE選抜　　　　　　　　　　　　　　　
  杉山 開; 太田和希; 鈴木陽太; 半田友衣子; 齋藤伸吾
  Oct. 2024
  Japanese, Poster presentation
  共同研究・競争的資金等ID：43877822
• シングルラウンド-CE選抜/機械学習によるアプタオミクスアプローチ　　　　　　　　　　　　　　　
  細渕竜真; 太田和希; 松永光司; 鈴木陽太; 半田 友衣子; 齋藤伸吾
  Oct. 2024
  Oral presentation
• ナノディスク会合型β2ARを標的とするシングルラウンド-CE選抜　　　　　　　　　　　　　　　
  松下航己; 奥村春香; 鈴木陽太; 半田 友衣子; 戸澤 譲; 齋藤伸吾
  Oct. 2024
  Japanese, Poster presentation
• 速度論および DFT計算による解離不活性なアクチニル-フェナントロリンジカルボン酸錯体の解離 反応解析　　　　　　　　　　　　　　　
  青島 成暁; 山縣 和仁; 鈴木 陽太; 半田 友衣子; 原賀 智子; 齋藤 伸吾
  Sep. 2024
  Japanese, Poster presentation
• ゲル電気泳動における新規分子量補正法に基づくフミン酸超分子の化学量論の解析　　　　　　　　　　　　　　　
  真田 一平; 保住 真成; 鈴木 陽太; 半田 友衣子; 齋藤 伸吾
  Sep. 2024
  Japanese, Poster presentation
• A simple supramolecular probe for selective D-glucose recognition in water based on anthracene type probe/modified b-cyclodextrin inclusion complexes　　　　　　　　　　　　　　　
  Takeshi Hashimoto; Ko Sugita; Yuya Hirahara; Sumika Fujimoto; Yota Suzuki; Takashi Hayashita
  21st International Cyclodextrin Symposium, Jun. 2024
  Jun. 2024 - Jun. 2024, English, Oral presentation
  共同研究・競争的資金等ID：41938741
• dpa修飾ピレンセンサーによる迅速LPS検出　　　　　　　　　　　　　　　
  木本 洋; 高橋 萌香; 益子 征景; 佐藤 海; 平原 裕也; 飯山 真充; 鈴木 陽太; 橋本 剛; 早下 隆士
  Jun. 2024
  Jun. 2024 - Jun. 2024, Japanese, Oral presentation
• オリゴ糖鎖長を測る分子ものさし: ジボロン酸修飾スクアリリウム色素の円二色性応答　　　　　　　　　　　　　　　
  大井 映璃; 佐々木 佑真; 鈴木 陽太; 半田 友衣子; 前田 壮志; 齋藤 伸吾
  May 2024
  May 2024 - May 2024, Japanese, Poster presentation
  共同研究・競争的資金等ID：46165935
• エンドトキシンの迅速蛍光検出法の確立とそのメカニズムの解明　　　　　　　　　　　　　　　
  木本 洋; 高橋 萌香; 益子 征景; 佐藤 海; 平原 裕也; 飯山 真充; 鈴木 陽太; 橋本 剛; 早下 隆士
  Jan. 2024
  Jan. 2024 - Jan. 2024, Japanese, Oral presentation
• シクロデキストリン空孔を反応場として活用する超分子分析試薬の開発　　　　　　　　　　　　　　　
  鈴木 陽太
  Sep. 2023, [Invited]
  Sep. 2023 - Sep. 2023, Japanese, Invited oral presentation
  共同研究・競争的資金等ID：41938741
• 優れた包接機能を有する超微細シクロデキストリンナノゲルの開発　　　　　　　　　　　　　　　
  早下 隆士; 竹内 聡弥; 相馬 涼佳; 鈴木 陽太; 橋本 剛
  Sep. 2023
  Sep. 2023 - Sep. 2023, Japanese, Oral presentation
  共同研究・競争的資金等ID：41938741
• レシオメトリック型蛍光化学センサーを用いた細菌毒素 LPSのハイスループット分析　　　　　　　　　　　　　　　
  木本 洋; 高橋 萌香; 益子 征景; 佐藤 海; 平原 裕也; 飯山 真充; 鈴木 陽太; 橋本 剛; 早下 隆士
  Sep. 2023
  Sep. 2023 - Sep. 2023, Japanese, Oral presentation
• Lipopolysaccharide Detection in Water by Dual-Wavelength Monitoring Using a Ratiometric Fluorescent Chemosensor　　　　　　　　　　　　　　　
  Hiroshi Kimoto; Moeka Takahashi; Masamitsu Iiyama; Yota Suzuki; Takeshi Hahimoto; Takashi Hayashita
  Royal Society of Chemistry-Tokyo International Conference, Sep. 2023
  Sep. 2023 - Sep. 2023, English, Oral presentation

• Sep. 2023
  Experiments in Applied Chemistry II, Saitama University

• Aug. 2022 - Present, The Chemical Society of Japan
• Apr. 2022 - Present, Japan Society of Ion Exchange
• Apr. 2022 - Present, The Society of Cyclodextrins
• Jul. 2015 - Present, The Japan Society for Analytical Chemistry

• 構造シグナリングの創案：柔軟な発色団構造を持つ分子プローブによる糖鎖長の識別　　　　　　　　　　　　　　　
  Apr. 2024 - Mar. 2026
  Grant amount(Total)：4680000, Direct funding：3600000, Indirect funding：1080000
  Grant number：24K17703
  講演・口頭発表等ID：46943270
• 超分子アプタマーに基づく高機能分子認識素子の設計　　　　　　　　　　　　　　　
  31 Aug. 2023 - 31 Mar. 2025
  Grant amount(Total)：2860000, Direct funding：2200000, Indirect funding：660000
  Grant number：23K19262
  講演・口頭発表等ID：48194197
• 超分子的多価ボロン酸に基づいた分子認識機構による新奇糖センシングアプローチ　　　　　　　　　　　　　　　
  Apr. 2024 - Feb. 2025
  Principal investigator
• Design of Cyclodextrin Gel-type Chemosensors Based on the Reactivity of Boronic Acid Moiety　　　　　　　　　　　　　　　
  Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for JSPS Fellows, Grant-in-Aid for JSPS Fellows, 28 Apr. 2021 - 31 Mar. 2024
  Sophia University
  Grant amount(Total)：3640000, Direct funding：2800000, Indirect funding：840000
  Grant number：21J00709
  講演・口頭発表等ID：46988517, 産業財産権ID：46166254, メディア報道ID：43196727
• CDs with photoactivable molecules　　　　　　　　　　　　　　　
  ACRI-CNR-ISMN, CYCLONET Young Investigator Training Program 2019, May 2022 - Jul. 2022
  University of Catania, Principal investigator
• Development of a colorimetric boronic acid-based chemosensor for determining D-glucose　　　　　　　　　　　　　　　
  Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for JSPS Fellows, Grant-in-Aid for JSPS Fellows, 25 Apr. 2019 - 31 Mar. 2021
  Waseda University
  Grant amount(Total)：1700000, Direct funding：1700000
  Grant number：19J11173
• 励起状態分子内プロトン移動型蛍光を用いた新規ペルオキシ亜硝酸イオン検出試薬の開発　　　　　　　　　　　　　　　
  Sep. 2019 - Mar. 2020
  Principal investigator

• キラル糖分子のキラル認識方法および複合体　　　　　　　　　　　　　　　
  Patent right
  共同研究・競争的資金等ID：41938741

• Sophia University in collaboration with Helmholtz-Zentrum Dresden-Rossendorf has reported on the potential of a new diagnostic and therapeutic technology based on cyclodextrin nanogels　　　　　　　　　　　　　　　
  Myself, Sophia University, Jan. 2024, [Internet]
• 細菌毒素”エンドトキシン”の迅速測定法の確立に成功しました　　　　　　　　　　　　　　　
  Aug. 2023, [Internet]
  共同研究・競争的資金等ID：41938741
• Supramolecular glucose chemosensor that shows fluorescence developed by Sophia University led group　　　　　　　　　　　　　　　
  Science Japan, Feb. 2023, [Internet]
  共同研究・競争的資金等ID：41938741
• シクロデキストリンの「穴の中」で光るセンサー　　　　　　　　　　　　　　　
  Feb. 2023, [Internet]
  共同研究・競争的資金等ID：41938741
• ブドウ糖だけを捕まえて発光　　　　　　　　　　　　　　　
  Jan. 2023, [Paper]
  共同研究・競争的資金等ID：41938741
• ブドウ糖“だけ”を捕まえて光る超分子複合体の開発に成功しました　　　　　　　　　　　　　　　
  Dec. 2022, [Internet]
  共同研究・競争的資金等ID：41938741