圻广猟リスト (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 | 硬R玲脅, 魃o, 源喟剴匯* | プロピレンカ`ボネ`ト/プロピレンオキシド慌嶷栽悶盾|のイオン蒙來 | 互蛍徨猟鹿 74 (6) 577-583 doi |
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| 84 | 表云蚯*, 源喟剴匯、麿14 | カ`ボンブラック割野紗葬爺隼ゴムイソプレンゴムおよび用タンパク|晒爺隼ゴムのフィラ`の蛍柊夛と麗來 | 晩云ゴムf氏I 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 | 消隠弥嗤o, 源喟剴匯* | ナノ犒幃x夛を侘撹するNBR/ポリエ`テル侏盾|ブレンドの恬uと仟щゴムロ`ラ`への鮄 | 晩云ゴムf氏I 90 (2) 23-29 及65指猟p |
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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) 362C366 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) 337C342 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) 2442C2447 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 | S僥氏I 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. Vezz┫, 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 | ナンタナ`ワンナサ`, 源喟剴匯* | 屈磨晒命殆/アルキレンオキシド慌嶷栽悶の栽撹とイオン來互蛍徨としての児云蒙來u | 互蛍徨猟鹿 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(ethyleneCcoCvinyl 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 |