List of Peer-Reviewed Papers (2010 - 2019)
2019
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 101 | Z. Li, J. Mindemark, D. Brandell, Y. Tominaga* | A concentrated poly(ethylene carbonate)/poly(trimethylene carbonate) blend electrolyte for all-solid-state Li battery | Polymer Journal 51, 753-760 doi |
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| 100 | Y. Tominaga*, K. Nakano, T. Morioka | Random copolymers of ethylene carbonate and ethylene oxide for Li-ion conductive solid electrolytes | Electrochimica Acta 312, 342-348 doi |
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| 99 | S. Wei, Z. Li, K. Kimura, S.Inoue, Y. Tominaga*, L. Pandini, D. Di Lecce, J. Hassoun* | Glyme-based electrolytes for lithium metal batteries using insertion electrodes: An electrochemical study | Electrochimica Acta 306, 85-95 doi |
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| 98 | N. A. Ramlee, Y. Tominaga* | Structural and physicochemical properties of melt-quenched poly(ethylene carbonate)/poly(lactic acid) blends | Polymer Degradation and Stability 163, 35-42 doi |
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| 97 | Y. Tominaga*, Y. Kinno, K. Kimura | An end-capped poly(ethylene carbonate)-based concentrated electrolyte for stable cyclability of lithium battery | Electrochimica Acta 302, 286-290 doi |
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| 96 | N. A. Ramlee, Y. Tominaga* | Mechanical and degradation properties in alkaline solution of poly(ethylene carbonate)/poly(lactic acid) blends | Polymer 166, 44-49 doi |
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| 95 | A. Aziz, Y. Tominaga* | Effect of Li salt addition on electrochemical properties of poly(ethylene carbonate)-Mg salt electrolytes | Polymer Journal 51, 61-67 doi |
2018
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 94 | K. Kimura, Y. Tominaga* | Understanding electrochemical stability and lithium ion-dominant transport in concentrated poly(ethylene carbonate) electrolyte | ChemElectroChem 5, 4008-4014 doi |
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| 93 | K. Shikinaka*, Y. Funatsu, Y. Kubota, Y. Tominaga*, M. Nakamura, R. R. Navarro, Y. Otsuka | Tuneable shape-memory properties of composites based on nanoparticulated plant biomass, lignin, and poly(ethylene carbonate) | Soft Matter 14, 9227-9231 doi |
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| 92 | A. Aziz, N. Yoshimoto, K. Yamabuki, Y. Tominaga* | Ion-conductive, thermal and electrochemical properties of poly(ethylene carbonate)-Mg electrolytes with glyme solution | Chemistry Letters 47 (10) 1258-1261 OpenAccess |
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| 91 | Z. Li, R. Mogensen, J. Mindemark, T. Bowden, D. Brandell*, Y. Tominaga* | Ion-conductive and thermal properties of a synergistic poly(ethylene carbonate)/poly(trimethylene carbonate) blend electrolyte | Macromolecular Rapid Communications 39, 1800146 Open Access |
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| 90 | A. Aziz, Y. Tominaga* | Magnesium ion-conductive poly(ethylene carbonate) electrolytes | Ionics 24 (11) 3475-3481 doi |
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| 89 | N. A. Ramlee, Y. Tominaga* | Preparation and characterization of poly(ethylene carbonate)/poly(lactic acid) blends | Journal of Polymer Research 25, 54-62 doi |
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| 88 | K. Shikinaka*, H. Sotome, Y. Kubota, Y. Tominaga*, M. Nakamura, R. R. Navarro, Y. Otsuka | A small amount of nanoparticulated plant biomass, lignin, enhances the heat tolerance of poly(ethylene carbonate) | Journal of Materials Chemistry A 6, 837-839 doi |
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| 87 | Z. Li, H. Matsumoto, Y. Tominaga* | Composite poly(ethylene carbonate) electrolytes with electrospun silica nanofibers | Polymers for Advanced Technologies 29 (2) 820-824 doi |
2017
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 86 | K. Kimura, Y. Tominaga* | Ionic Liquid-Containing Composite Poly(ethylene oxide) Electrolyte Reinforced by Electrospun Silica Nanofiber | Journal of The Electrochemical Society 164 (13) A3357-A3361 Open Access |
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| 85 | M. Koga, K. Hashimoto, Y. Tominaga* | Ion-conductive properties of propylene carbonate/propylene oxide copolymers | Kobunshi Ronbunshu 74 (6) 577-583 doi |
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| 84 | Y. Yamamoto*, Y. Tominaga, et al. | Dispersed structure of filler and properties of vulcanized natural rubber, isoprene rubber and deprotenized natural rubber filled with carbon black | Nihon Gomu Kyokaishi 90 (10) 470-474 |
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| 83 | T. Yuuki, Y. Konosu, M. Ashizawa, T. Iwahashi, Y. Ouchi, Y. Tominaga, R. Ooyabu, H. Matsumoto, H. Matsumoto* | Ionic liquid-based electrolytes containing surface-functionalized inorganic nanofibers for quasisolid lithium battery | ACS Omega 2 (3) 835-841 doi |
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| 82 | T. Morioka, K. Nakano, Y. Tominaga* | Ion-conductive properties of a polymer electrolyte based on ethylene carbonate/ethylene oxide random copolymer | Macromolecular Rapid Communications 38 (8) 1600652 doi |
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| 81 | Y. Kubota, Y. Tominaga* | Development of Novel Conductive Rubber Rollers using NBR/Polyether Electrolyte Blends with Nanoscale Sea-Island Phase Separation | Nihon Gomu Kyokaishi 90 (2) 23-29 The 65th Paper Award |
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| 80 | N. Sugihara, K. Nishimura, H. Nishino, S. Kanehashi, K. Mayumi, Y. Tominaga, T. Shimomura*, K. Ito | Ion-Conductive and Elastic Slide-Ring Gel Li Electrolytes Swollen with Ionic Liquid | Electrochimica Acta 229, 166-172 doi |
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| 79 | K. Shikinaka*, N. Taki, K. Kaneda, Y. Tominaga | Quasi-solid electrolyte: a thixotropic gel of imogolite and an ionic liquid | Chemical Communications 53, 613-616 doi |
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| 78 | J. Motomatsu, H. Kodama, T. Furukawa,Y. Tominaga* | Dielectric relaxation and ionic transport in poly(ethylene carbonate)-based electrolytes | Polymers for Advanced Technologies 28 (3) 362–366 doi |
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| 77 | Y. Tominaga*, S. Tamagawa | Preparation and improvement in photovoltaic performance of dye-sensitized solar cells using carbon dioxide | Ionics 23 (2) 337–342 doi |
2016
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 76 | K. Kimura, J. Motomatsu, Y. Tominaga* | Highly concentrated polycarbonate-based solid polymer electrolytes having extraordinary electrochemical stability | Journal of Polymer Science Part B: Polymer Physics 54 (23) 2442–2447 doi |
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| 75 | K. Kimura, J. Motomatsu, Y. Tominaga* | Correlation between Solvation Structure and Ion-Conductive Behavior of Concentrated Poly(ethylene carbonate)-Based Electrolytes | The Journal of Physical Chemistry C 120 (23) 12385-12391 doi |
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| 74 | K. Kimura, M. Yajima, Y. Tominaga* | A highly-concentrated poly(ethylene carbonate)-based electrolyte for all-solid-state Li battery working at room temperature | Electrochemistry Communications 66, 46-48 doi |
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| 73 | T. Morioka, K. Ota, Y. Tominaga* | Effect of oxyethylene side chains on ion-conductive properties of polycarbonate-based electrolytes | Polymer 84, 21-26 doi |
2015
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 72 | Y. Kubota, Y. Tominaga* | Effect of nitrile groups on conductivity and morphology of NBR/polyether-based electrolyte blends for antistatic materials | Materials Today Communications 4, 124-129 doi |
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| 71 | J. Motomatsu, H. Kodama, T. Furukawa*, Y. Tominaga* | Dielectric Relaxation Behavior of a Poly(ethylene carbonate)-Lithium Bis-(trifluoromethanesulfonyl) Imide Electrolyte | Macromolecular Chemistry and Physics 216 (15) 1660-1665 doi |
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| 70 | K. Kimura, H. Matsumoto, J. Hassoun, S. Panero, B. Scrosati, Y. Tominaga* | A Quaternary Poly(ethylene carbonate)-Lithium Bis(trifluoromethanesulfonyl)imide-Ionic Liquid-Silica Fiber Composite Polymer Electrolyte for Lithium Batteries | Electrochimica Acta 175, 134-140 doi |
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| 69 | N. Sugihara, Y. Tominaga, T. Shimomura*, K. Ito | Ionic Conductivity and Mechanical Properties of Slide-Ring Gel Swollen with Electrolyte Solution Including Lithium Ions | Electrochimica Acta 169, 433-439 doi |
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| 68 | K. Kimura, J. Hassoun, S. Panero, B. Scrosati, Y. Tominaga* | Electrochemical properties of a poly(ethylene carbonate)-LiTFSI electrolyte containing a pyrrolidinium-based ionic liquid | Ionics 21 (3) 895-900 doi |
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| 67 | Y. Tominaga*, K. Yamazaki, V. Nanthana | Effect of Anions on Lithium Ion Conduction in Poly(ethylene carbonate)-based Polymer Electrolytes | Journal of The Electrochemical Society 162 (2) A3133-A3136 Open Access |
2014
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 66 | K. Kaneda, K. Uematsu, H. Masunaga, Y. Tominaga, K. Shigehara, K. Shikinaka* | Flow-orientation of internal structure and anisotropic properties on hydrogels consisted of imogolite hollow nanofibers | Sen-i Gakkaishi 70 (7) 137-144 |
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| 65 | S. Ishibe, K. Anzai, J. Nakamura, Y. Konosu, M. Ashizawa, H. Matsumoto*, Y. Tominaga* | Ion-conductive and mechanical properties of polyether/silica thin fiber composite electrolytes | Reactive and Functional Polymers 81, 40-44 doi |
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| 64 | Y. Tominaga*, K. Yamazaki | Fast Li-ion conduction in poly(ethylene carbonate)-based electrolytes and composites filled with TiO2 nanoparticles | Chemical Communications 50 (34) 4448-4450 doi |
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| 63 | Y. Tominaga*, T. Maki | Proton-conducting composite membranes based on polybenzimidazole and sulfonated mesoporous organosilicate | International Journal of Hydrogen Energy 39 (6) 2724-2730 doi |
2013
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 62 | Y. Kubota, Y. Tominaga* | Nano-ordered sea-island phase separation of ion-conductive elastomer blends based on NBR and polyether electrolytes, | e-Journal of Soft Materials 9, 9-13 Open Access |
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| 61 | Y. Tominaga*, M. Endo | Ion-conductive properties of Polyether-based composite electrolytes filled with mesoporous silica, almina and titania | Electrochimica Acta 113, 361-365 doi |
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| 60 | S. Kitajima, F. Bertasi, K. Vezzù, E. Negro, Y. Tominaga*, V. Di Noto* | Dielectric relaxations and conduction mechanisms in polyether-clay composite polymer electrolytes under high carbon dioxide pressure | Physical Chemistry Chemical Physics 15 (39) 16626-16633 doi |
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| 59 | S. Kitajima, M. Matsuda, M. Yamato, Y. Tominaga*, | Anisotropic ionic conduction in composite polymer electrolytes filled with clays oriented by a strong magnetic field | Polymer Journal 45 (7) 738-743 doi |
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| 58 | V. Nanthana, Y. Tominaga* | Synthesis and Fundamental Properties of Carbon Dioxide/Alkylene Oxide Copolymers as Ion-Conductive Polymers | Kobunshi Ronbunshu 70 (1) 23-28 doi |
2012
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 57 | Y. Tominaga*, V. Nanthana, D. Tohyama | Ionic conduction in poly(ethylene carbonate)-based rubbery electrolytes including lithium salts | Polymer Journal 44 (12) 1155-1158 doi |
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| 56 | S. Kitajima, Y. Tominaga* | Improvement in dispersion and ionic conductivity of polyether/freeze-dried clay composites using supercritical carbon dioxide as treatment medium | Ionics 18 (9) 845-851 doi |
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| 55 | Y. Chiba, Y. Tominaga* | Poly(ethylene–co–vinyl alcohol)/sulfonated mesoporous organosilicate composites as proton-conductive membranes | Journal of Power Sources 203, 42-47 doi |
2011
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 54 | Y. Oe, Y. Tominaga* | Utilization of carbon dioxide for polymer electrolytes [I]: Effect of supercritical treatment conditions on ionic conduction in amorphous polyether/salt mixtures | Electrochimica Acta 57, 176-179 doi |
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| 53 | M. Nakamura, Y. Tominaga* | Utilization of carbon dioxide for polymer electrolytes [II]: Synthesis of alternating copolymers with glycidyl ethers as novel ion-conductive polymers | Electrochimica Acta 57, 36-39 doi |
2010
| No. | Authors | Title | Journal Vol (Issue) Pages |
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| 52 | Y. Tominaga*, T. Shimomura, M. Nakamura | Alternating copolymers of carbon dioxide with glycidyl ethers for novel ion-conductive polymer electrolytes | Polymer 51 (19) 4295-4298 doi |