Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Yu Hoshino Last modified date:2023.11.22

Professor / Chemistry and Biochemistry Course / Department of Applied Chemistry / Faculty of Engineering


Presentations
1. 星野 友, ラジカル反応とクロマト精製による均一オリゴマーリガンドの作成, Polysolvat-13, 2022.01.
2. Yu Hoshino , Development of homogeneous polymer ligands that bind, and neutralize toxicity of target peptide; a progress toward monoclonal plastic antibodies, GPS-K2021, 2021.07.
3. Yu Hoshino, Yusuke Saito, Ryutaro Honda, Yoshiko Miura , Controlling electrostatic interactions between micro- and nano-gel particles and counter ions by tuning polymerization conditions, Pacifichem2021, 2021.12.
4. Y.Hoshino, Development of hydrogel films with large gel-gas interface forfast and reversible CO2 capture, Pacifichem2021, 2021.12.
5. S.Aki, Y.Miura,Y.Hoshino, Development of CO2 separation membrane with micropatterned surface by polymerization induced phase separation micro-molding process, Pacifichem2021, 2021.12.
6. R.Honda, Y.Miura,Y.Hoshino, Design of temperature-responsive microgel particlesfor effective reversible CO2 capture at various CO2 partial pressure, Pacifichem2021, 2021.12.
7. R.Horii, Y.Miura,Y.Hoshino, Evaluation and improvement of long-term durabilityof CO2 separation membranes consisting of amine-containing gel particles, Pacifichem2021, 2021.12.
8. H.Matsumoto,Y.Hoshino,T.Iwai,M.Sawamura,Y.Miura, Application of MacroporousPolystyrene-Triphenylphosphine Monolith to Palladium-Catalyzed Cross-CouplingReaction in Flow System, APCChE2019, 2019.09.
9. Y.miura, H.Seto, M.Shibuya, Y.Hoshino, Biopolymer monolith for protein separation, Nanolithography of Biointerfaces Faraday Discussion, 2019.07.
10. Y.Hoshino, Preparation of Defectless Hydrogel Nanomembranes for CO2 Separationby Microgel Particles, 2019 MRS SPRING MEETING & EXHIBIT, 2019.04.
11. Benshuai Guo,Yoshiko Miura,Yu Hoshino, Thermocell driven by TemperatureResponsive pH Change of Nanogel Solution, 2019Pusan-Gyeongnam/Kyushu-SeibuJoint Symposium on High Polymers(19th), 2019.10.
12. Takahiro Oh1、Yu Hoshino1、Yoshiko Miura1 , The effect of the glycopolymer length on the self-assembly of double-hydrophilic block glycopolymer, 第68回高分子学会年次大会, 2019.05.
13. Yu Hoshino1, Preparation of Defectless Hydrogel Nanomembranes for CO2 Separation by Microgel Particles, 2019 MRS SPRING MEETING & EXHIBIT, 2019.04.
14. Hinata Takimoto1、Shohei Taniguchi1、Yu Hoshino1、Yoshiko Miura1, Development of polymerligand for recognation of target toxic peptide, ISChE2018, 2018.11.
15. Haruka Hattori1、Hikaru Matsumoto1、Yu Hoshino1、Yoshiko Miura1, Development of macroporouspolymer monolith containning L-proline-based organocatalyst and applicationto flow asymmetric aldol addition reaction, ISChE2018, 2018.11.
16. Yu Hoshino1, Dynamic modulation of pKa value of Brønsted acids in microgel particles: Design strategies and applications, ICEAN-2018, 2018.10.
17. 郭本帥、星野友、山田鉄兵、三浦佳子, Thermo-Electrochemical Cell Development by Using Temperature Responsive Nanogel, 第67回高分子学会年次大会, 2018.05.
18. Y. Hoshino, Tuning pKa of Brønsted Acids in Temperature-Responsive Hydrogel Particles by Proton- and Ion-Imprinting Strategy, ACS 255rd National Meeting 2018, 2018.03.
19. Kazuki Jono, Masanori Nagao, Shotaro Sonoda, Yu Hoshino, Yoshiko Miura, Controlling the molecular recognition of glycopolymer by the sugar chain arrangement, 2017 Kyushu-Seibu/Pusan-Gyeongnam Joint Symposium on High Polymers (18th) and Fibers (16th), 2017.12.
20. Yuki Taguchi, Yuhei Terada, Yu Hoshino, Yoshiko Miura, Cell Separation by Glycopolymer Modified Interface for Cell Separation, 2017 Kyushu-Seibu/Pusan-Gyeongnam Joint Symposium on High Polymers (18th) and Fibers (16th), 2017.12.
21. Shohei Taniguchi, Sho Katakami, Yusuke Yonamine, Yu Hoshino, Yoshiko Miura, Effects of the Number of Functional Groups of Discrete Oligomer Ligands Affinity to Target Peptide, 2017 Kyushu-Seibu/Pusan-Gyeongnam Joint Symposium on High Polymers (18th) and Fibers (16th), 2017.12.
22. Ryuitaro Honda, Tomohiro Gyobu, Hideto Shimahara [JAIST], Yoshiko Miura, Yu Hoshino, Effect of Composition of Gel Particles on the Immobilization of Carbonic Anhydrase, 2017 Kyushu-Seibu/Pusan-Gyeongnam Joint Symposium on High Polymers (18th) and Fibers (16th), 2017.12.
23. Mitsunori Moribe, Naoki Gondo, Masahiko Nakamoto, Yu Hoshino, Yoshiko Miura, Provement of Reversible Salt Absorption Efficiency of Temperature Responsive Gel Particle Composite Membrane, 2017 Kyushu-Seibu/Pusan-Gyeongnam Joint Symposium on High Polymers (18th) and Fibers (16th), 2017.12.
24. Masanori Nagao, Akane Kubo, Yurina Fujiwara[Keio Univ.], Teruhiko Matsubara[Keio.Univ.], Yu Hoshino, Toshinori Sato[Keio Univ.], Yoshiko Miura, Design of Glycopolymers for Controlling the Interaction with Influenza Virus, 2017 Kyushu-Seibu/Pusan-Gyeongnam Joint Symposium on High Polymers (18th) and Fibers (16th), 2017.12.
25. T.Gyobu ,R.Honda, K.Imamura, T.Yamashita, I.Taniguchi, Y. Miura, Y.Hoshino, Relationship between pKa of Amines in Microgel Particle Membranes and CO2Permeance, 2017 AIChe Annual Meating, 2017.10.
26. Y. Hoshino, T. Miyoshi, T. Jibiki, Y. Miura, Tuning pKa of Brønsted Acids in Stimuli Responsive Nanogel Particles by Proton- and Ion-Imprinting Strategy for Reversible Capture of Target Molecules, Affinity 2017, 2017.06, Synthetic materials that alter their binding affinity to target molecules in response to external stimuli have gained considerable attention as substitutes for protein based ligands. Recently, we revealed that pNIPAm-based NPs that show large and reversible pKa shifts can be prepared by the “proton imprinting” and “microenvironment imprinting” strategy. The pKa variation range of carboxylic acids in the NPs can further be tuned by designing structure of monomers containing Brønsted acids and tuning cross-linking density and size of NPs. The pKa variation range can be lowered/raised to be 4-9 by stabilizing/destabilizing carboxylate anions by modifying the acids with electron withdrawing/donating group. The pKa of acids can also be lowered dramatically by imprinting cationic functional group such as guanidium group around the carboxylate anions.
Our results provide a guide for designing stable and inexpensive materials for many biological and chemical applications as temperature-dependent affinity media and pH modifiers..
27. Yuhei Terada, Hirohiko Ise, Yu Hoshino, and Yoshiko Miura, Screening Molecular Recognition of Protein by Glycopolymer using SPRI, 第66回高分子学会年次大会, 2017.05.
28. Masanori Nagao, Chihiro Tamoto, Yuuki Kurebayashi, Tadanobu Takahashi, Takashi Suzuki, Yu Hoshino, Yoshiko Miura, Design of glycopolymer-ligands for efficient interaction with influenza viruses, 第66回高分子学会年次大会, 2017.05.
29. Yusuke YONAMINE, Yuta SUZUKI, Takuro ITO, Tomohisa HASUNUMA, Kouki OH, Yuri AISAKA, Yoshiko MIURA, Keisuke GODA, Yasuyuki OZEKI, and Yu HOSHINO, Metabolome monitoring of stable isotope-labeled algae by Raman spectroscopy, 第66回高分子学会年次大会, 2017.05.
30. Takahiro Oh, Yu Hoshino, Yoshiko Miura, Analysis of Polymer Micelles by Double Hydrophilic Block Glycopolymer, 第66回高分子学会年次大会, 2017.05.
31. Yu Hoshino, Development of Protein-Mimic Nanoparticles for Effective CO2 Separation, 23rd iCeMS International Symposium, 2017.05.
32. Fan Wen, Hikaru Matsumoto, Yu Hoshino, and Yoshiko Miura, Preparation of thermally responsive porous monolith for CO2 reversible absorption, 第66回高分子学会年次大会, 2017.05.
33. Y. Hoshino, T. Gyobu, R. Honda, K. Imamura, C. Yamashita, T. Watanabe, I. Taniguchi, Y. Miura, Development of Nanogel Membranes for CO2 Separation, ACS 253rd National Meeting 2017, 2017.04.
34. Yu Hoshino, Toshiki Jibiki, Takaaki Miyoshi, Masaaki Nakamoto Yoshiko Miura, Tuning pKa Value of Bronsted Acids in Hydrogel Nanoparticles by Ion Imprinting Strategy, Gelsympo 2017, 2017.03.
35. Yu Hoshino, Design of Synthetic Polymer Nanoparticles that Function as Molecular Chaperones, Asian International Symposium-Natural Products Chemistry, Chemical Biology/Biofunctional Chemistry and Biotechnology, 2017.03.
36. Y. Terada, H. Ise, Y. Hoshino, Y. miura, SPR Screening of Protein Recognition by Glycopolymers Synthesized via RAFT Polymerization, The 11th SPSJ International Polymer Conference, 2016.12.
37. T. Akiyosi, H, Seto, Y, Hoshino, Y. Miura, Preparation of Pd-supported polymer nanogel with high catalytic activity and long life time, The 11th SPSJ International Polymer Conference, 2016.12.
38. S, Katakami, Y. Hoshino, Y. Miura, Effect of functional groups distribution on the interaction between polymer aptamer and melittin, The 11th SPSJ International Polymer Conference, 2016.12.
39. T. Miyoshi, M. Nakamoto, Y. Hoshino, Y. Miura, Active Proton Transport by Liquid Membrane of Temperature-Responsive Nanogel Particles, The 11th SPSJ International Polymer Conference, 2016.12.
40. T. Oh, Y. Hoshino, Y. Miura, Synthesis and analysis of glycopolymers : Self-assembly with response to concanavalin A, The 11th SPSJ International Polymer Conference, 2016.12.
41. H. Matsumoto, H. Seto, Y. Hoshino, Y. Miura, Application of Macroporous Gel-based Monolith Reactor to Cross-Coupling Reaction, The 11th SPSJ International Polymer Conference, 2016.12.
42. Yu Hoshino, Masahiko Nakamoto, Yoshiko Miura, Design of Synthetic Polymer Nanoparticles with Dynamic Functions as Enzymes, The 11th SPSJ International Polymer Conference, 2016.12.
43. Yu Hoshino, Development of Hydrogel Films Consisting of Enzyme-Mimic Nano Gel Particles for Energy Efficient CO2 Separation, IWAMSN2016, 2016.11.
44. 与那嶺雄介, Metabolome analysis of stable isotope-labeled algae by Raman spectroscopy, 第65回高分子討論会, 2016.09.
45. Y. Hoshino, T. Gyobu, K. Imamura, I. Taniguchi, and Y. Miura, Development of Nanogel Membranes for CO2 Separation, AMS10, 2016.07.
46. Yu Hoshino, Design of Nanogel Particles for Capture and/or Release of Target Molecules/Ions, CIMTEC 2016, 2016.06.
47. Yu Hoshino, Mengchen Yue, Takaaki Miyoshi, Yoshiko Miura, Protein-mimic strategies to design hydrogel particles that reversibly captures target ions, Pacifichem 2015, 2015.12.
48. M. Nagao, Y. Kurebayashi, H. Seto, T. Tanaka, T. Takahashi, T. Suzuki, Y. Hoshino, Y. Miura, Synthesis of influenza virus-recognizing glycopolymer via RAFT polymerization and Copper-Catalyzed Azide-Alkyne Cycloaddition, Pacifichem 2015, 2015.12.
49. Xinnan Cui, Yuki Kojima, Hirokazu Seto, Yu Hoshino, Yoshiko, MiuraInhibition of bacteria adhesion and protein adsorption on hydroxyapatite surface using PEG-Phosmer copolymers, Pacifichem 2015, 2015.12.
50. Y. Hoshino, Design of Synthetic Polymer Nanoparticles that Recognize Target Biomacromolecules and Ions, 9th International Symposium on Nanomedicine (ISNM), 2015.12.
51. M. Nagao, T. Oh, H. Seto, T. Tanaka, T. Takahashi, T. Suzuki, Y. Hoshino, Y. Miura, Synthesis of well-defined glycopolymers bearing oligosaccharide using post-click chemistry, 7th Asian Community of Glycoscience Glycotechnoloty, 2015.11.
52. Y. Hoshino, Design of Synthetic Polymer Nanoparticles that Recognize Target Molecules and Ions, Polymers in Medicine and Biology 2015 Sonoma Valley, 2015.09.
53. 星野 友, Development of Temperature-Responsive Microgel Films for Reversible CO2 Absorption, I2CNER INTERNATIONAL WORKSHOP on Recent Progress on Membrane Separation and CO2 Capture, 2015.07.
54. 星野 友, Yoshiko Miura, Yue Mengchen, Study on Capacity and Kinetics of Reversible CO2 Capture-release by Films Consisting of Thermal Responsive Microgel Particles, 98th Canadian Chemistry Conference and Exhibition, 2015.06.
55. 星野 友, Development of Energy Efficient CO2 Absorbents Consisting of Temperature-responsive Microgel Particles, 98th Canadian Chemistry Conference and Exhibition, 2015.06, The CO2 level in the atmosphere has been increasing because of the combustion of fossil fuels, and this is considered to be one of the main factors behind global climate change. Thus, industrial processes that can capture and separate CO2 selectively from combustion gases have gained considerable attention. The chemical absorption of CO2 using aqueous solutions of amines has been considered to be the most scalable CO2-capture processes from the high humidity exhaust gases. The amine solutions absorbs CO2 at a low temperature (~40 °C) by an exothermic reaction and desorbed CO2 upon heating (>140 °C). However, the high-energy consumption—equivalent to 20–40 % of a typical power plant output, limit the use of the process for fossil fuel power plants. Thus, the development of CO2 sorbents that desorb CO2 at low temperatures has been required.
We have found that the aqueous solutions of temperature-responsive microgel particles (GPs) consisting of N-isopropyl acrylamide (NIPAM) and N-[3-(dimethylamino)propyl]methacrylamide (DMAPM) reversibly absorbed CO2 via volume phase transition (VPT) of the GPs. Poly(NIPAM) hydrogels underwent VPT from a swollen to a shrunken state at the volume phase transition temperature (VPTT). Most amines in the swollen GPs were capable of forming ion pairs with the absorbed bicarbonate ions below VPTT. However, above VPTT, the shrinkage of GPs lowered the pKa value of these amines, resulting in efficient desorption of CO2.
The capacity for CO2 absorption per amine in the GPs in solution was superior to the amine solutions. However, the absorption capacity per weight of the solution was much smaller than the solutions. In order to improve the capacity, we prepared hydrogel films consisting of the GPs and revealed that the films worked as stimuli responsive CO2 absorbent with a high capacity..
56. Xinnan Cui, 國府島 由紀, 瀬戸 弘一, 星野 友, Yoshiko Miura, Inhibition of Biofilm Adhesion on Hydroxyapatite Surface by Using PEG-Phosmer Copolymer, 第64回高分子学会年次大会, 2015.05.
57. Yue Mengchen, 星野 友, Yoshiko Miura, Kinetics study of CO2 capture-release process by thermal responsive microgel particles, 化学工学会第80年会, 2015.03.
58. 星野 友, Development of Temperature-Responsive Microgel Films for Reversible CO2 Absorption in Wet Environment, I2CNER INTERNATIONAL WORKSHOP CO2 CAPTURE & UTILIZATION RESEARCH DIVISION, 2015.02.
59. Xinnan Cui, 瀬戸 弘一, 星野 友, Yoshiko Miura, Inhibition of Biofilm Adhesion on Hydroxyapatite Surface by Using PEG-Phosmer Copolymer, 第24回日本MRS年次大会, 2014.12.
60. 米田 玉弥, 森井 崇人, 瀬戸 弘一, 星野 友, Yoshiko Miura, Pd-supported polymer nanoparticle immobilized silica membrane type reactor, The 27th International Symposium on Chemical Engineering, 2014.12.
61. 國府島 由紀, 瀬戸 弘一, Yu Hoshino, Yoshiko Miura, Inhibition of protein and bacteria adsorption on hydroxyapatite surface, The 27th international symposium on chemical engineering, 2014.12.
62. 今井 健太, Mengchen Yue, 星野 友, Yoshiko Miura, Development of hydrogel films that are consist of poly-vinylamine derivatives for carbon dioxide absorption, The 27th International Symposium on Chemical Engineering, 2014.12.
63. 星野 友, Design of synthetic polymer nanoparticles with desired affenity to target molecules:A mimic of antibodies and enzymes, IWAMSN 2014 Halong Bay, 2014.11.
64. 寺田 侑平, Shuhei Shinohara, 瀬戸 弘一, 星野 友, KAORU TAMADA, Yoshiko Miura, Analysis of glycopolymer-brush structure on gold substrate using SPP spectroscopy, The 7th International Symposium on Surface Science, 2014.11.
65. 寺田 侑平, Shuhei Shinohara, 瀬戸 弘一, 星野 友, KAORU TAMADA, Yoshiko Miura, Analysis of glycopolymer-brush structure using optical biosensor, 第63回高分子討論会, 2014.09.
66. Yue Mengchen, 星野 友, Yoshiko Miura, Detail study about the thermo-responsive microgel particles as CO2 absorbents, 化学工学会 第46回秋季大会, 2014.09.
67. Mengchen Yue, 星野 友, 三浦 佳子, Thermal Responsive Microgel Particle Based Films as CO2 Absorbent and Diffusion Behavior Study, IUMRS-International Conference on Electronic Materials (IUMRS-ICEM 2014), 2014.08.
68. Haejoo Lee, Yusuke Wada, 星野 友, 三浦 佳子, Study of Synthetic Polymer Ligands as Plastic Antibody, IUMRS-International Conference on Electronic Materials (IUMRS-ICEM 2014), 2014.08.
69. 星野 友, 大橋 良平, 三浦 佳子, Development of Enzyme-Mimic Proton Transfer Systems, IUMRS-International Conference on Electronic Materials (IUMRS-ICEM 2014), 2014.08.
70. 星野 友, 大橋 良平, 三浦 佳子, Preparation of Temperature Responsive Nanogels with Carboxylic Acids which Undergo Large and Reversible pKa Shift, IUMRS-International Conference on Electronic Materials (IUMRS-ICEM 2014), 2014.08.
71. Yue Mengchen, 星野 友, Yoshiko Miura, Temperature Responsive Microgel Particle as CO2 Absorbent: Detailed Study, The 15th IUMRS-International Conference in Asia (IUMRS-ICA 2014), 2014.08.
72. 國府島 由紀, 瀬戸 弘一, Yu Hoshino, Yoshiko Miura, Biomacromolecular adsorption on oligoethyleneglycol modified dendrimer interfaces, IUMRS-International Conference on Electronic Materials (IUMRS-ICEM 2014), 2014.08.
73. 寺田 侑平, Tatsuo Endo, 瀬戸 弘一, 星野 友, Yoshiko Miura, 2D photonic crystal biosensor immobilized with sugar-incorporating nanogelparticle, 248th ACS National Meeting, 2014.08.
74. 仲本 正彦, 星野 友, Yoshiko Miura, Correlation Between Protein Binding Process of Nanogel Particles and Facilitation of Protein Refolding, 248th ACS National Meeting, 2014.08.
75. 星野 友, 大橋 良平, Yoshiko Miura, Development of liquid membranes consisting of aqueous solution of proton-imprinted nanogel particles for heat-induced ion separation, 248th ACS National Meeting, 2014.08.
76. Xinnan Cui, 瀬戸 弘一, 星野 友, Yoshiko Miura, Inhibition of Biofilm Adhesion on Hydroxyapatite Surface by Using PEG-Phosmer Copolymer, 第25回九州地区若手ケミカルエンジニア討論会, 2014.07.
77. Haejoo Lee, 和田 悠佑, 星野 友, Yoshiko Miura, Design of synthetic polymer ligands that recognize and capture target peptides with multipoint interactions, Polymers and Organic chemistry 2014 (POC2014), 2014.06.
78. Hirokazu Seto, Seiji Kamba, Takashi Kondo, Yuichi Ogawa, 星野 友, 三浦 佳子, Preparation of Metal Mesh Device Sensor for Detection of Particulate Matters in Air, MRS Fall Meeting,2013, 2013.12.
79. Mengchen Yue, 星野 友, 三浦 佳子, Hydrogel Films consisting of Temperature Responsive Microgel Particles for Reversible Absorption of CO2 in Water Saturated Environment
, MRS Fall Meeting,2013, 2013.12.
80. 星野 友, 大橋良平, 三浦 佳子, Preparation of Proton Imprinted Nanoparticles with Switchable pKa Values: Toward Plastic Enzymes, MRS Fall Meeting,2013, 2013.12.
81. Mengchen Yue, 星野 友, 三浦 佳子, 二酸化炭素可逆吸収剤としての温度応答性ナノゲルから成るハイドロゲルフィルム, 第62回高分子学会年次大会, 2013.05.
82. Yoke-Ming Wong, 星野 友, 三浦 佳子, Keiji Numata, Polymer nanoparticles as a potential catalyst in performing amidase activity, 第62回高分子学会年次大会, 2013.05.
83. Yu Hoshino, Kazushi Imamura, Mengchen Yue, Yoshiko Miura, Reversible absorption of CO2 by aqueous solution of amine-containing poly-N-isopropylacrylamide particles, The 244th ACS National Meeting , 2013.04.
84. Ryohei Ohashi, Yu Hoshino, Yoshiko Miura, Reversible absorption of protons by temperature-responsive gel-particles, The 244th ACS National Meeting , 2013.04.
85. Yu Hoshino, Mengchen Yue, Yoshiko Miura, Hydrogel films consisting of temperature-responsive nanogels as an absorbent to capture CO2 reversibly, The 244th ACS National Meeting , 2013.04.
86. LEE HAEJOO, Yusuke Wada, Yu Hoshino, Yoshiko Miura, Preparation and characterization synthetic polymer ligands that recognize target peptides with multipoint interaction, The 244th ACS National Meeting , 2013.04.
87. 寺田侑平, 瀬戸 弘一, 遠藤 達郎, 星野 友, 三浦 佳子, Sugar-incorporating polymer nanoparticles for biosensing using structural color, 第7回 有機分子・バイオエレクトロニクス国際会議, 2013.03.
88. LEE HAEJOO, Yusuke Wada, Yu Hoshino, Yoshiko Miura, Minimization of Polymer Ligands that Interact with Targeted Peptide, Soft-interfaces Mini-symposium 2013-Physical Chemistry and Characterization of Soft-interfaces-(SIMS2013) , 2013.03.
89. Mengchen Yue, Yu Hoshino, Yoshiko Miura, Study on reversible CO2 absorption by thermo-responsive hydrogel films, Soft-interfaces Mini-symposium 2013-Physical Chemistry and Characterization of Soft-interfaces-(SIMS2013) , 2013.03.
90. 瀬戸 弘一, Masaki Takara, Yu Hoshino, Yoshiko Miura, Surface Modification of Siliceous Materials Using Maleimidation and Glycopolymer Synthesized by Reversible Addition Fragmentation Chain Transfer Polymerization, 2012 MRS Fall Meeting, 2012.11.
91. Masaki Takara, Yu Hoshino, Yoshiko Miura, Biosensing-application with Glycopolymer-substituted Gold Nanoparticles, 2012 MRS Fall Meeting, 2012.11.
92. Yoshiko Miura, 瀬戸 弘一, Yutaro Ogata, Yu Hoshino, Protein Separation with Glycopolymer Modified Siliceous Materials, IUMRS-International Conference on Electronic Materials (IUMRS-ICEM 2012), 2012.09.
93. Mengchen Yue, 星野 友, 三浦 佳子, Effect of amine on CO2 capture-release of N-isopropylacrylamide based nanoparticles, 化学工学会第44回秋季大会, 2012.09.
94. 星野 友, 大橋良平, Mengchen Yue, 今村和史, 三浦 佳子, Enzyme mimic ion transport using thermo-responsive nanogels, 第61回高分子討論会, 2012.09.