研究成果

​​トップページ/会員専用/お知らせ/研究紹介/研究成果/​外部リンク

論文

1. “Machine learning approach for prediction of the grafting yield in radiation-induced graft polymerization”
   Y. Ueki, N. Seko, and Y. Maekawa​
   Applied Materials Today​, 25, 101158 (2021). 
2. “Synergizing radiation-induced emulsion graft polymerization of glycidyl methacrylate on polyethylene-coated polypropylene nonwoven fabric by addition of hydrophobic alcohols”
   M. Omichi, N. Seko and Y. Maekawa​
   Radiat. Phys. Chem., 191​, 109867 (2022). 
3. “Three-component domains in the fully hydrated nafion membrane characterized by partial scattering function analysis”
   Y. Zhao, K. Yoshimura, T. Motegi, A. Hiroki, and Y. Maekawa,
   Macromolecules, 54, 4128-4135 (2021). 
4. “Alkaline fuel cells consisting of imidazolium-based graft-type anion exchange membranes: Optimization of fuel cell conditions to achieve high performance and durability”
   A. M. A. Mahmoud, K. Yoshimura, and Y. Maekawa,
   J. Membr. Sci., 620, 118844 (2021). 
5. “A long side chain imidazolium-based graft-type anion-exchange membrane: novel electrolyte and alkaline-durable properties and structural elucidation using SANS contrast variation”
   Y. Zhao, K. Yoshimura, A. M. S. Mahmoud, H. C. Yu, S. Okushima, A.Hiroki, Y. Kishiyama, H. Shishitani, S. Yamaguchi, H. Tanaka, Y. Noda, S. Koizumi, A. Radulescu, and Y. Maekawa,
   Soft Matter., 16, 8128-8143 (2020). 
6. “Thermally stable graft-type polymer electrolyte membranes consisting based on poly (ether ether ketone) and crosslinked graft-polymers for fuel cell applications”
   S. Hasegawa, A. Hiroki, Y. Ohta, N. Iimura, A. Fukaya, and Y. Maekawa,
   Radiat. Phys. Chem., 171, 108647-1-5 (2020). 
7. “Imidazolium-Based Anion Exchange Membranes for Alkaline Anion Fuel Cells: Interplay Between Morphology and Anion Transport Behavior”
   Y. Zhao, K. Yoshimura, H. Takamatsu, A. Hiroki, Y. Kishiyama, H. Shishitani, S. Yamaguchi, H. Tanaka, S. Koizumi, A. Radulescu, M. Appavou, and Y. Maekawa,
   Journal of The Electrochemical Society, 166, F472-F478 (2019). 
8. “Development of a Simplified Radiation-Induced Emulsion Graft Polymerization Method and Its Application to the Fabrication of a Heavy Metal Adsorbent”
   M. Omichi, Y. Ueki, N. Seko, and Y. Maekawa,
   Polymers, 11, 1373-1-11 (2019). 
9. “Alkaline durable 2-methylimidazolium containing anion-conducting electrolyte membranes synthesized by radiation-induced grafting for direct hydrazine hydrate fuel cells”
   K. Yoshimura, A. Hiroki, H. C. Yu, Y. Zhao, H. Shishitani, S. Yamaguchi, H. Tanaka, and Y. Maekawa,
   J. Membr. Sci., 573, 403-410 (2019).
10. “Reverse relationships of water uptake and alkaline durability with hydrophilicity of imidazolium-based grafted anion-exchange membranes ”
    K. Yoshimura, Y. Zhao, A. Hiroki, Y. Kishiyama, H. Shishitani, S. Yamaguchi, H. Tanaka, S. Koizumi, J. Houston, A. Radulescu, M.-S.Appavou, D. Richter, and Y. Maekawa,
    Soft Matter, 14, 9118-9831 (2018). バックカバーに掲載
11. “Small angle neutron scattering study on the morphology of imidazolium-based grafted anion-conducting fuel cell membranes”
    Y. Zhao, K. Yoshimura, H. C. Yu, Y. Maekawa, A. Hiroki, Y. Kishiyama, H. Shishitani, S. Yamaguchi, H. Tanaka, S. Koizumi, M. Appavou, J. Houston, A. Radulescu, and D. Richter,
    Physica B, 551C, 203-207 (2018).

国際学会

1. “Crosslinking Effects of Anion-conducting Polymer Electrolyte Membranes on their Properties”
   A. Hiroki, S. Okushima, K. Yoshimura, Y. Zhao, H. Shishitani, S. Yamaguchi, and Y. Maekawa, 
   IMSTEC2020, Sydney, Australia, Feb. 2-6, 2020.
2. “Small-angle Scattering Study for Developing Alkaline Durable Imidazolium-Based Grafted Anion Exchange Membranes for Pt-Free Fuel Cells ”
   Y. Zhao, 
   32nd European Crystallographic Meeting, Vienna, Austria, Aug. 18-23, 2019.
3. “The First Durable Imidazolium-based Radiation Grafted Anion Exchange Membranes for Alkaline Fuel cells: The Impact of Water Management”
   A. M. A. Mohamed, K. Yoshimura, A. Hiroki, and Y. Maekawa,  
   236th ESC Meeting, Atlanta, USA, Oct. 13-17, 2019.
4. “Structural Designs of Alkaline Durable Imidazolium-Containing Anion Conducting Membranes Prepared by Radiation-Induced Grafting for Pt-Free Fuel Cells”
   K. Yoshimura, Y. Zhao, A. Mahmoud, A. Hiroki, H. Shishitani, S. Yamaguchi, H. Tanaka, and Y. Maekawa,  
   2019 MRS Fall Meeting, Boston, USA, Dec. 1-6, 2019.
5. “Scattering study of structure-property relationships of grafted anion exchange membranes”
   Y. Zhao, K. Yoshimura, A. Hiroki, and Y. Maekawa, 
   SAS2018, Traverse city, Michigan, Oct. 7-12, 2018.
6. “Imidazolium-Based Grafted Anion Exchange Membranes: (3) Interplay between the Morphology and Anion Transport Behavior”
   Y. Zhao, K. Yoshimura, A. Hiroki, Y. Kishiyama, H. Shishitani, S. Yamaguchi, H. Tanaka, and Y. Maekawa,
   AiMES 2018, Cancun, Mexico, Sep. 30-Oct. 4, 2018.
7. “The Relationship between Membrane Properties and Hierarchical Structure of Radiation Grafted Anion Conducting Membranes”
   K. Yoshimura, Y. Zhao, A. Hiroki, H. Shishitani, S. Yamaguchi and Y. Maekawa,
   Advanced Energy Materials 2018, University of Surrey, England Sep. 10-12, 2018.
8. “Properties of anion-conducting electrolyte membranes based on ETFE membrane and crosslinked graft polymers for fuel cells”
   A. Hiroki, K. Yoshimura, Y. Zhao, H. Shishitani, S. Yamaguchi, and Y. Maekawa,
   Advanced Energy Materials 2018, University of Surrey, England Sep. 10-12, 2018.