Original Research Papers
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1 |
1-メチル-4-ビニルピリジニウム共重合体からなる7,7,8,8-テトラシアノキノジメタン塩の導電性と安定性におよぼすカチオン構造の影響 神谷 保、後藤邦之、渡辺正義、篠原 功 日本化学会誌、1979, 308-311. |
2 |
Electrically Conductive TCNQ Salt of Elastomeric
Polycation M. Watanabe, A. Tsuchikura, T. Kamiya, I. Shinohara J. Polym. Sci., Polym.Lett. Ed., 19, 331-334 (1981). |
3 |
Preparation of Pollination by Polymerizing Bisections
and the Conductivity of Their TCNQ Salts M. Watanabe, K. Goto, N. Matsubara, A. Tsuchikura, I. Shinohara Makromol. Chem., 182, 2659-2669 (1981). |
4 |
High Lithium Ionic Conductivity of Polymeric
Solid Electrolytes M. Watanabe, M. Kanba, H. Matsuda, K.Tsunemi, K. Mizoguchi, E. Tsuchida, I. Shinohara Makromol. Chem., Rapid Commun., 2, 741-744 (1981). |
5 |
Preparation of Elastomeric Ionene Polymers Containing
4, 4'-Bipyridinium or 1, 2-Bis(4-pyridinium)ethylene Ring and the Conductivity of Their TCNQ Salts M. Watanabe, N. Toneaki, I. Shinohara Polym. J., 14, 189-195 (1982). |
6 |
Electrical Conductivity of the Poly(N-hexamethylene triethylenediammoniumdibromide)-CuBr Solid Electrolyte M. Watanabe, M. Kanba, J. Ikeda, I. Shinohara Electrochimica Acta, 27, 1153-1155 (1982). |
7 |
Microstructure and Electric Properties of Elastomeric
Ionene-TCNQ Salts M. Watanabe, N. Toneaki, Y. Takizawa, I. Shinohara J. Polym. Sci. Polym. Chem. Ed., 20, 2669-2680 (1982). |
8 |
Ionic Conductivity of Hybrid Films Based on Polyacrylonitrile
and Their Battery Application M. Watanabe, M. Kanba, K. Nagaoka, I. Shinohara J. Appl. Polym. Sci., 27, 4191-4198 (1982). |
9 | Ionic Conductivity of Polymeric Solid Electrolytes
Based on Poly (propylene oxide) and Poly (tetramethylene oxide) M. Watanabe, K. Nagaoka, M. Kanba, I. Shinohara Polym. J., 14, 877-886 (1982). |
10 | Effect of Molecular Weight of Polymeric Solvent
on Ion Conductive Behavior in Poly (propylene oxide) Solution of LiClO4 M. Watanabe, J. Ikeda, I. Shinohara Polym. J., 15, 65-69 (1983). |
11 | Effect of Temperature on Ion Conductive Behavior
in Poly (propylene oxide) Solution of LiClO4 M. Watanabe, J. Ikeda, I. Shinohara Polym. J., 15, 175-177 (1983). |
12 | Effect of Poly(propylene oxide) Segment Size
on Structure-Property Relationships in Elastomeric Ionene M. Watanabe, Y. Takizawa, I. Shinohara Polymer, 24, 491-497 (1983). |
13 | Ionic Conductivity of Hybrid Films Composed of
Polyacrylonitrile, Ethylene Carbonate, and LiClO4 M. Watanabe, M. Kanba, K. Nagaoka, I. Shinohara J. Polym. Sci., Polym. Phys. Ed., 21, 939-948 (1983). |
14 | Anisotoropic Electrical Conductivity of Drawn
Elastomeric Ionene-TCNQ Salts M. Watanabe, Y. Takizawa, I. Shinohara J. Polym. Sci., Polym. Chem. Ed., 21, 2397-2404 (1983). |
15 | Thermoswitching Property in TCNQ Salts of Ionenes
Containing Poly(ethyleneoxide) Segments Y. Takizawa, H. Aiga, M. Watanabe, I. Shinohara J. Polym. Sci., Polym. Chem. Ed., 21, 3145-3153 (1983). |
16 | Synthesis and Electrical Conductivity
of Polyamides Containing Tetrathiafulvalene Moieties in the Main Chain M. Watanabe, T. Iida, K. Sanui, N. Ogata, T. Kobayashi, Z. Ohtaki J. Polym. Sci., Polym. Chem. Ed., 22, 1299-1307 (1984). |
17 | Temperature Dependence of Ionic Conductivity
of Crosslinked Poly(propylene oxide) Films Dissolving Lithium Salts and Their Interfacial Charge Transfer Resistance in Contact with Lithium Electrodes M. Watanabe, K. Sanui, N. Ogata, F. Inoue, T. Kobayashi, Z. Ohtaki Polym. J., 16, 711-716 (1984). |
18 | High Ionic Conductivity in Poly (dimethylsiloxane-co-ethylene
oxide) Dissolving Lithium Perchlorate K. Nagaoka, H. Naruse. I. Shinohara, M. Watanabe J. Polym. Sci., Polym. Lett. Ed., 22, 659-663 (1984). |
19 | Ionic Conductivity of Polymer Complexes
Formed by Poly (ethylene succinate) and Lithium Perchlorate M. Watanabe, M. Rikukawa, K. Sanui, N. Ogata, H. Kato, T. Kobayashi, Z. Ohtaki Macromolecules, 17, 2902-2908 (1984). |
20 | Ionic Conductivity of Polymer Complexes
Formed by Poly(β-propiolactone) and Lithium Perchlorate M. Watanabe, N. Togo, K. Sanui, N. Ogata, T. Kobayashi, Z. Ohtaki Macromolecules, 17, 2908-2912 (1984). |
21 | Ionic Conductivity and Mobility in Network Polymers
from Poly(propylene oxide) Containing Lithium Perchlorate M. Watanabe, K. Sanui, N. Ogata, T. Kobayashi, Z. Ohtaki J. Appl. Phys., 57, 123-128 (1985). |
22 | Ionic Conductivity and Mobility of Poly(propylene
oxide) Networks Dissolving Alkali Metal Thiocyanates M. Watanabe, K. Sanui, N. Ogata, F. Inoue, T. Kobayashi, Z. Ohtaki Polym. J., 17, 549-555 (l985). |
23 | Evaluation of Ionic Mobility and Transference
Number in a Polymeric Solid Electrolyte by Isothermal Transient
Ionic Current Method M. Watanabe, M. Rikukawa, K. Sanui, N. Ogata J. Appl. Phys., 58, 736-740 (l985). |
24 | Novel Graft Copolymers Having Wholly Aromatic
Polyamide as Side Chains N. Ogata, K. Sanui, M. Watanabe, I. Yahagi J. Polym. Sci., Polym. Lett. Ed., 23, 349-352 (1985). |
25 | Morphology and Ionic Conductivity of Polymer
Complexes Formed by Segmented Polyether Poly(urethane urea) and
Lithium Perchlorate M. Watanabe, S. Oohashi, K. Sanui, N. Ogata, T. Kobayashi, Z. Ohtaki Macromolecules, 18, 1945-1950 (1985). |
26 | Effect of Polycondensation Methods on Molecular
Weight Distribution of Nylon 610 Y. Arai, M. Watanabe, K. Sanui, N. Ogata J. Polym. Sci., Polym. Chem. Ed., 23, 3081-3093 (1985). |
27 | Ion Conduction Mechanism in Network polymers
from Poly(ethylene oxide) and Poly(propylene oxide) Containing
Lithium Perchlorate M. Watanabe, S. Nagano, K. Sanui, N. Ogata Solid State Ionics, 18 &19, 338-342 (1986). |
28 | Effects of Polymer Structure and Incorporated
Salt Species on Ionic Conductivity of Polymer Complexes Formed
by Aliphatic Polyester and Alkali Metal Thiocyanate M. Watanabe, M. Rikukawa, K. Sanui, N. Ogata Macromolecules, 19, 188-192 (1986). |
29 | 過塩素酸リチウムを溶解したポリ(プロピレンオキサイド)橋かけ体のイオ ン伝導と分子運動 渡辺正義、鈴木晶子、讃井浩平、緒方直哉 日本化学会誌、1986, 428-434. |
30 | Correlation between Ionic Conductivity and Dynamic
Mechanical Property of Polymer Complexes Formed by a Segmented
Polyether Poly(urethane urea)and Lithium Perchlorate M. Watanabe, K. Sanui, N. Ogata Macromolecules, 19, 815-819 (1986). |
31 | Synthesis of Polyurea by Direct Polycondensation
of Diamines with Alkali Metal Carbonates N. Ogata, K. Sanui, M. Watanabe, Y. Kosaka J. Polym. Sci., Polym. Lett. Ed., 24, 65-67 (1986). |
32 | Synthesis of Polyurea by Direct Polycondensation
of 4-Aminophenyl Ether with Lithium Carbonate Y. Kosaka, M. Watanabe, K. Sanui, N. Ogata J. Polym. Sci., Polym. Chem. Ed., 24, 1915-1921 (1986). |
33 | Investigation of Ion Transport in Network Polymers
from Poly(propylene oxide) Using Azobenzene Probes M. Watanabe, A. Suzuki, T. Santo, K. Sanui, N. Ogata Macromolecules, 19, 1921-1925 (1986). |
34 | Ionic Conductivity of Network Polymers from Poly(ethylene
oxide) Containing Lithium Perchlorate M. Watanabe, S. Nagano, K. Sanui, N. Ogata Polym. J., 18, 809-817 (1986). |
35 | Preparation and Polarizing Microscopic Study
of Poly(alkyl acrylate-g-polybenzamide)s I. Yahagi, M. Watanabe, K. Sanui, N. Ogata J. Polym. Sci., Part A, 25, 727-730 (1987). |
36 | Stepwise Deposition of Oriented Monolayer Polymer
Films by the Langmuir-Blodgett Technique M. Watanabe, Y. Kosaka, K. Sanui, N. Ogata, K. Oguchi, T. Yoden Macromolecules, 20, 452-454 (1987). |
37 | Carrier Transport and Generation Processes in
Polymer Electrolytes Based on Poly(ethylene oxide) Networks M. Watanabe, M. Itoh, K. Sanui, N. Ogata Macromolecules, 20, 569-573 (1987). |
38 | Protonic Conduction in Poly(ethylenimine) Hydrates M. Watanabe, R. Ikezawa, K. Sanui, N. Ogata Macromolecules, 20, 968-973 (1987). |
39 | Polypyrrole/Polymer Electrolyte Bilayer Composites
Prepared by Electrochemical Polymerization of Pyrrole Using Ion-Conducting
Polymers as a Solid Electrolyte M. Watanabe, K. Tadano, K. Sanui, N. Ogata Chem. Lett., 1987, 1239-1242. |
40 | Structure-Conductivity Relationship in Polymer
Electrolytes formed by Network Polymers from Poly[dimethylsiloxane-g-poly(ethylene
oxide)] and Lithium Perchlorate M. Watanabe, S. Nagano, K. Sanui, N. Ogata J. Power Sources, 20, 327-332 (1987). |
41 | Direct Polycondensation Reaction Using Polymeric
Triphenylphosphine as an Initiator N. Ogata, K. Sanui, M. Watanabe, H. Sakai Polym. J., 19, 1351-1357 (1987). |
42 | Direct Copolycondensation for the Synthesis of
Copolyamides or Copolyesters N. Ogata, K. Sanui, A. Zao, M. Watanabe, T. Hanaoka Polym. J., 20, 529-537 (1988). |
43 | Ionic Conductivity of Polymer Electrolytes and
Future Applications M. Watanabe, N. Ogata Br. Polym. J., 20, 181-192 (1988). |
44 | A Polymer Complex as a New Type of Electron Beam
Resist for Dry Development S. Yoneyama, K. Oguchi, M. Watanabe, K. Sanui, N. Ogata Polym. Eng. & Sci., 28, 912-915 (1988). |
45 | Estimation of Li+ Transport Number in Polymer
Electrolytes by the Combination of Complex Impedance and Potensiostatic
Polarization Measurements M. Watanabe, S. Nagano, K. Sanui, N. Ogata Solid State Ionics, 28-20, 911-917 (1988). |
46 | Langmuir-Blodgett Films of Acetalized Poly(vinyl
alcohol)s K. Oguchi, T. Yoden, K. Kosaka, M. Watanabe, K. Sanui, N. Ogata Thin Solid Films, 161, 305-313 (1988). |
47 | Regulation of Supermolecular Structure of Amphiphilic
Polymers by Means of the Langmuir-Blodgett Technique M. Watanabe, Y. Kosaka, K. Oguchi, K. Sanui, N. Ogata Macromolecules, 21, 2997-3003 (1988). |
48 | New Lithium Salt Ionic Conductor Using Poly(vinyl
alcohol) Matrix T. Kanbara, M. Inami, T. Yamamoto, A. Nishikata, T. Tsuru, M. Watanabe, N. Ogata Chem. Lett., 1989, 1913-1916. |
49 | Synthesis of Semi-Rigid Polyesteramides Having
Piperazine Ring as a Mesogenic Unit S. Honda, M. Watanabe, K. Sanui, N. Ogata Polym. J., 21, 951-954 (1989). |
50 | Electron Self Exchange Dynamics between Redox
Sites in Polymers A. Surridge, J. C. Jernigan, E. F. Dalton, P. R. Buck, M. Watanabe, T. T. Wooster, H. Zhang, M. Pinkerton, M. L. Longmire, J. S. Facci, R. W. Murray Faraday Discuss. Chem. Soc., 88, 1-17 (1989). |
51 | Synthesis of Ultra-thin Films of Poly(vinylenebenzothiazole)
at Air/Water Interface S. Yokoyama, A. Yoshida, T. Ueda, M. Watanabe, K. Sanui, N. Ogata Chem. Lett., 1990, 779-782. |
52 | A Study of Ferrocene Diffusion Dynamics in Network
Poly(ethylene oxide) Polymer Electrolyte by Solid State Voltammetry M. Watanabe, M. L. Longmire, R. W. Murray J. Phys. Chem., 94, 2614-2619 (1990). |
53 | Voltammetric Measurement of Ultraslow Diffusion
Rates in Polymeric Media with Microdisk Electrodes M. L. Longmire, M. Watanabe, H. Zhang, T. T. Wooster, R. W. Murray Anal. Chem., 62, 747-752 (1990). |
54 | Solid State Voltammetry and Self-Diffusion Dynamics
of a Linear Monotagged Redox Polymer: ω-Ferrocenecarboxamide-α-methoxy-poly(ethylene
oxide) M. J. Pinkerton, Y. Le Mest, H. Zhang, M. Watanabe, R. W. Murray J. Am. Chem. Soc., 112, 3730-3736 (1990). |
55 | Ionic Conduction of Poly[γ-methoxy-tri(ethylene
oxide)-L-glutamate] Dissolving Various Alkali Metal Salts Y. Yamaguchi, S. Aoki, M. Watanabe, K. Sanui, N. Ogata Solid State Ionics, 40/41, 628-631 (1990). |
56 | Ionic Transport Number of Network PEO Electrolytes Y. Kato, M. Watanabe, K. Sanui, N. Ogata Solid State Ionics, 40/41, 632-636 (1990). |
57 | Synthesis of Ultra-thin Films of Polybenzoxazole
and Their Electrical Properties S. Yokoyama, T. Ueda, M. Watanabe, K. Sanui, N. Ogata New Polymeric Mater., 2, 67-74 (1990). |
58 | Synthesis of Ultra-thin Films of Aromatic Polymers
at Air/Water Interface T. Ueda, S. Yokoyama, M. Watanabe, K. Sanui, N. Ogata J. Polym. Sci.: Part A: Polymer Chemistry, 28, 3221-3230 (1990). |
59 | Electron Self Exchange Reaction in Solid State
Voltammetry. The Radical Anion of TCNQ in Polymer Electrolytes.
Part 1 M. Watanabe, T. T. Wooster, R. W. Murray J. Phys. Chem., 95, 4573-4579 (1991). |
60 | Diffusion and Heterogeneous Electron Transfer
Rates in Acetonitrile and in Polyether Melts by Alternating Current
Voltammetry at Microdisk Electrodes M. L. Longmire, T. T. Wooster, M. Watanabe, R. W. Murray J. Phys. Chem., 95, 5315-5321 (1991). |
61 | Long Range Electron Transfers between Very Slowly
Diffusing Tetracyanoquinodimethane and Its Radical Anion in Polyether
Solution T. T. Wooster, M. Watanabe, R. W. Murray J. Phys. Chem., 96, 5886-5893 (1992). |
62 | Ion/Electron Mixed Conductors based on Polymer
Electrolytes M. Watanabe, H. Nagasaka, K. Sanui, N. Ogata, R. W. Murray Electrochim. Acta, 37, 1521-1523 (1992). |
63 | A New Polymer Electrolyte Based on Polyglycidylether K. Motogami, M. Kono, S. Mori, M. Watanabe, N. Ogata Electrochim. Acta, 37, 1725-1727 (1992). |
64 | Ionic Motion in Network Polymers Containing Lithium
Perchlorate K. Ichikawa, L. C. Dickinson, W. J. MacKnight, M. Watanabe, N. Ogata Polymer, 33, 4699-4704 (1992). |
65 | Experimental Aspects of Solid State Voltammetry T. T. Wooster, M. L. Longmire, H. Zhang, M. Watanabe, R. W. Murray Anal. Chem., 64, 1132-1140 (1992). |
66 | 過塩素酸リチウムを溶解したエチレンオキシド/プロピレンオキシド共重合 体架橋体のイオン伝導特性におよぼす共重合組成およびシークエンス分布の 影響 明石寛之、加藤良樹、渡辺正義、讃井浩平、緒方直哉 日本化学会誌、1992, 74-82. |
67 | In-situ Polycondensation for Synthesis of Composites
of Elastomeric Matrices and Wholly Aromatic Polyamides E. Debeaupte, M. Watanabe, K. Sanui, N. Ogata Chem. Mater., 4, 1123-1128 (1992). |
68 | Mechanical Properties and Morphologies of NBR
Composite Materials Reinforced by Polyimide or PPTA A. K. Shu, E. Debeaupte, M. Watanabe, K. Sanui, N. Ogata New Polym. Mater., 3, 249-260 (1992). |
69 | In-situ Direct Polycondensation in Polymer Matrices
II. In-situ Direct Polycondensation in Styrene-Butadiene Block
Copolymers K. Sanui, N. Ogata, K. Kamitani, M. Watanabe J. Polym. Sci.: Part A, Polymer Chem., 31, 597-602 (1993). |
70 | Synthesis of Polymer Electrolytes Based on Poly[2-(2-methoxyethoxy)ethyl
glycidyl ether] and Their High Ionic Conductivity M. Kono, K. Furuta, S. Mori, M. Watanabe, N. Ogata Polym. Adv. Tech., 4, 85-91 (1993). |
71 | Gel-type Solid Polymer Electrolytes for Rechargeable
Film Batteries T. Kabata, T. Fujii, O. Kimura, T. Ohsawa, T. Samura, Y. Matsuda, M. Watanabe Polym. Adv. Tech., 4, 205-208 (1993). |
72 | Ionic Conductivity and Side Chain Relaxation
in Polyglutamates having Oligo(ethylene oxide) Chains M. Watanabe, S. Aoki, K. Sanui, N. Ogata Polym. Adv. Tech., 4, 179-187 (1993). |
73 | Electrochemical Study of Swelling Change of Poly(N-isopropyl
acrylamide) Gels Using Gel-Modified Ultramicroelectrodes M. Watanabe, Y. Tadenuma, M. Ban, K. Sanui, N. Ogata J. Intelligent Material Systems and Structures, 4, 216-222 (1993). |
74 | High Ionic Conductivity of New Polymer Electrolytes
Consisting of Polypyridinium, Pyridinium, and Aluminum Chloride M. Watanabe, S. Yamada, K. Sanui, and N. Ogata J. Chem. Soc., Chem. Commun., 1993, 929-931. |
75 | In-Situ Polycondensation for Synthesis of Composites
of Elastomeric Polymers and Poly(γ-methyl-L-glutamate) Y. Ayaki, M. Rikukawa, M. Watanabe, K. Sanui, and N. Ogata Polym. J., 26, 325-333 (1994). |
76 | Electrochemical and Photochromic Properties of
Azopyridinium Methylsulfates M. Nakagawa, M. Rikukawa, M. Watanabe, K. Sanui, N. Ogata Chem. Lett., 1785-1788 (1994). |
77 | Electrochemical Control of Drug Release from
Redox-active Micelles Y. Takeoka, T. Aoki, K. Sanui, N. Ogata, M. Yokoyama, T. Okano, Y. Sakurai, M. Watanabe J. Controlled Release, 33, 79-87 (1995). |
78 | Ionic Conductivity of Polymer Electrolytes Containing
Room Temperature Molten Salts Based on Pyridinium Halide and
Aluminum Chloride M. Watanabe, S. Yamada, N. Ogata Electrochim. Acta, 40, 2285-2288 (1995). |
79 | Structural Effects of Redox Active Sites on Electron
Hopping Rate in Mixed Conducting Copolymers H. Nagasaka, M. Watanabe Polym. Adv. Tech., 6, 190-196 (1995). |
80 | Super Ion-conducting Polymers for Solid Polymer
Electrolytes N. Ogata, K. Sanui, M. Rikukawa, S. Yamada, M. Watanabe Synthetic Metals, 69, 521-524 (1995). |
81 | Electron Transfer Reaction between Fixed Redox
Sites in Ion/Electron Mixed Conducting Polymers H. Nagasaka, M. Watanabe Synthetic Metals, 69, 557-558 (1995). |
82 | Effects of Network Structures and Incorporated
Salt Species on Electrochemical Properties of Polyether-based
Polymer Electrolytes M. Watanabe, A. Nishimoto Solid State Ionics, 79, 306-312 (1995). |
83 | Redox Activity of Vinylferrocene Copolymers by
Electron Hopping Reaction in the Absence of Fluid Solvents M. Watanabe, H. Nagasaka, N. Ogata J. Phys. Chem., 99, 12294-12300 (1995). |
84 | The Effect of Polymer Structures on the Ionic
Association of LiClO4 in Polyether-based Network Polymer Electrolytes
Studied by FT-Raman Scattering Spectroscopy H. Akashi S. L. Hsu, W. J. MacKnight, M. Watanabe, N. Ogata J. Electrochem. Soc., 142, L205-L207 (1995). |
85 | Preparation of Novel Redox Copolymers: Poly[ferrocenylmethyl
methacrylate-co- methoxy-oligo(ethylene oxide)], and Their
Use as Polymeric Mediators in Amperometric Glucose Sensors H. Nagasaka, T. Saito, H. Hatakeyama, M. Watanabe Denki Kagaku, 63, 1088-1094 (1995). |
86 | Culture of Mammalian Cells on Polypyrrole-coated
ITO as a Biocompatible Electrode T. Aoki, M. Tanino, K. Sanui, N. Ogata, K. Kumakura, T. Okano, Y. Sakurai, M. Watanabe Synthetic Metals, 71, 2229-2230 (1995). |
87 | レドックス活性基を有する非イオン性界面活性剤からなるミセルとポリアク リル酸との相互作用 竹岡敬和、青木 隆、讃井浩平、緒方直哉、渡辺正義 高分子論文集、52, 657-661 (1995). |
88 | Electrochemical Studies of Redox-active Surfactant.
Correlation between Electrochemical Response and Dissolved State Y. Takeoka, T. Aoki, K. Sanui, N. Ogata, M. Watanabe Langmuir, 12, 487-493 (1996). |
89 | Molecular Design of Ion and Ion/Electron Mixed
Conducting Polymers M. Watanabe Macromolecular Symposia, 105, 229-233 (1996). |
90 | Transport and Electrochemical Characterization
of Plasticized Poly(vinyl chloride) Solid Electrolytes A. M. Sukeshini, A. Nishimoto, M. Watanabe Solid State Ionics, 86-88, 385-393 (1996) |
91 | Conductivity Study of Ionic Liquid/Polymer Complexes M. Watanabe, T. Mizumura Solid State Ionics, 86-88, 353-356 (1996). |
92 | 高分子中のイオンダイナミクスと高分子固体電解質 渡邉正義 熱測定、24, 12-21 (1997). |
93 | Photochromic, Electrochemical and Photoelectrochemical
Properties of Novel Azopyridinium Derivatives M. Nakagawa, M. Rikukawa, M. Watanabe, K. Sanui, N. Ogata Bull. Chem. Soc. Jpn., 70, 737-744 (1997). |
94 | Molecular Relaxation of a Branched Poly(ethylene
oxide) Network Polymer K. Ichikawa, C. L. Dickinson, W. J. MacKnight, M. Watanabe Polym. J., 29, 429-433 (1997). |
95 | Tethered Mediator Biosensor: The Concept and
Preliminary Results Y. Ohkawa, M. Nagano, H. Kobayashi, T. Ohno, M. Watanabe Denki Kagaku, 65, 504-505 (1997). |
96 | Cyclic Voltammetric Study of Redox-Active Surfactant by hydrogel-Modified
Electrode Y. Takeoka, T. Aoki, K. Sanui, N. Ogata, M. Watanabe Polymer Gels and Networks, 5, 369-383 (1997). |
97 | Effect of Supporting Electrolyte Concentration
on Electrochemical Reaction of Redox-active Surfactant Micelles
in Aqueous Solutions Y. Takeoka, T. Aoki, K. Sanui, N. Ogata, M. Watanabe J. Electroanal. Chem., 438, 153-158 (1997). |
98 | 生体適合性高分子メディエーターを用いたグルコースセンサー 斉藤貴宏、黒沢規宏、渡辺正義、岩崎泰彦、石原一彦 高分子論文集、55, 200-206 (1998). |
99 | Network Polymer Electrolytes having Free Chain
Ends as Internal Plasticizer M. Kono, E. Hayashi, M. Watanabe J. Electrochem. Soc., 145, 1521-1527 (1998). |
100 | Molecular Specific Swelling Change of Hydrogels
in Accordance with the Concentration of Guest Molecules M. Watanabe, T. Akahoshi, Y. Tabata, D. Nakayama J. Am. Chem. Soc., 120, 5577-5578 (1998). |
101 | High Ionic Conductivity of New Polymer Electrolytes
based on High Molecular Weight Polyether Comb Polymers A. Nishimoto, M. Watanabe, Y. Ikeda, S. Kohjiya Electrochim. Acta, 43, 1177-1184 (1998). |
102 | Characterization of Poly(vinylferrocne-co-2-hydroxyethyl
methacrylate) for the Use in Enzymatic Glucose Sensor as Electron
Mediator T. Saito, M. Watanabe Reactive & Functional Polymers, 37, 263-269 (1998). |
103 | Open Spaces and Molecular Motions of Polyether-Based
Network Polymers Probed by Positron Annihilation A. Uedono, S. Tanigawa, A. Nishimoto, M. Watanabe J. Polym. Sci., Part B, Polym. Phys., 36, 1919-1925 (1998). |
104 | High Ionic Conductivity of Polyether-Based Polymer
Electrolytes Having Hyperbranched Side Chains A. Nishimoto, K. Agehara, N. Furuya, T. Watanabe, M. Watanabe Macromolecules, 32, 1541-1548 (1999). |
105 | Tethered mediator biosensor. Mediated electron
transfer between redox enzyme and electrode via ferrocene anchored
to electrode surface with long polyoxyethylene chain Y. Okawa, M. Nagano, S. Hirota, H. Kobayashi, T. Ohno, M. Watanabe Biosensor & Bioelectronics, 14, 229-235 (1999). |
106 | Preparation, Mechanical Properties, and Electrochemical
Characterization of Polymer Gel Electrolytes Prepared from Poly(alkylene
oxide) Macromonomers M. Kono, E. Hayashi, M. Watanabe J. Electrochem. Soc., 146, 1626-1632 (1999). |
107 | High Ionic Conductivity and Electrode Interface
Properties of Polymer Electrlytes Based on High Molecular Weight
Branched Polyether M. Watanabe, T. Endo, A. Nishimoto, K. Miura, M. Yanagida J. Power Sources, 81-82, 786-789 (1999). |
108 | Electron Transfer Reaction from Glucose Oxidase
to an Electrode via Redox Copolymers T. Saito, M. Watanabe Polym. J., 31, 1149-1154 (1999). |
109 | Surface Activity and Redox Behavior of Nonionic
Surfactants Containing an Anthraquinone Group as the Redox-active
Site M. A. B. H. Susan, K. Tani, M. Watanabe Colloid & Polym. Sci., 277, 1125-1133 (1999). |
110 | Preparation of Polypyrrole/Polymer Electrolyte
Composites with Concentration Gradient of Polypyrrole as Cathode/Electrolyte
Material for Lithium Secondary Battery J. Amanokura, Y. Suzuki, S. Imabayashi, M. Watanabe Electrochemistry, 67, 1159-1161 (1999). |
111 | Single Ion Conduction in Polyether
Electrolytes Alloyed with Lithium Salt of A Perfluorinated Polyimide M. Watanabe, Y. Suzuki, A. Nishimoto Electrochim. Acta, 45, 1187-1192 (2000). |
112 | Highly Conductive Polymer Electrolytes
Prepared by in situ Polymerization of Vinyl Monomers in
Room Temperature Molten Salts A. Noda, M. Watanabe Electrochim. Acta, 45, 1265-1270 (2000). |
113 | Electrochemical Properties of Polymer
Gel Electrolytes Based on Poly(vinylidel fluoride) Copolymer
and Homopolymer T. Michot, A. Nishimoto, M. Watanabe Electrochim. Acta, 45, 1347-1360 (2000). |
114 | A Study for the Correlation of the
Cyclic Voltammetric Responses of a Non-ionic Surfactant Containing
an Anthraquinone Group with the Dissolved States M. A. B. H. Susan, M. Begum, Y. Takeoka, M. Watanabe Langmuir, 16, 3509-3516 (2000). |
115 | Effect of pH and the Extent of Micellization
on the Redox Behavior of Non-ionic Surfactants Containing an
Anthraquinone Group M. A. B. H. Susan, M. Begum, Y. Takeoka, M. Watanabe J. Electroanal. Chem., 481, 192-199 (2000). |
116 | Chemical and Electrochemical Characterization of Polymer Gel Electrolytes Based on a Poly(alkylene oxide) Macromonomer for Application to Lithium Batteries M. Kono, E. Hayashi, M. Nishiura, M. Watanabe J. Electrochem. Soc., 147, 2517-2524 (2000). |
117 | Amperometric Detection of Polyphenols Using Peroxidase-Immobilized
Gold Electrodes S. Imabayashi, Y. Kong, M. Watanabe Chemistry Letters, 2000, 1020-1021 (2000). |
118 | Effects of Addition of a Boroic Acid Ester Monomer
to Electrolyte Solutions and Gel Electrolytes on Their Ionic
Transport Properties T. Hirakimoto, M. Nishiura, M. Watanabe Electrochim. Acta, 46, 1609-1604 (2001). |
119 | XPS Study of Lithium Surface after Contact with
Lithium-Salt Doped Polymer Electrolytes I. Ismail, A. Noda, A. Nishimoto, M. Watanabe Electrochim. Acta, 46, 1595-1603 (2001). |
120 | Anionic Effect on Ion Transport Properties in
Network Polyether Electrolytes M. Watanabe, H. Tokuda, S. Muto Electrochim. Acta, 46, 1487-1491 (2001). |
121 | Polypyrrole/Polymer Electrolyte Composites Prepared
by In-situ Polymerization of Pyrrole as Cathode/Electrolyte Material
for Facile Electron Transfer at the Solid Interface J. Amanokura, Y. Suzuki, S. Imabayashi, M. Watanabe J. Electrochem. Soc., 148, D43-D48 (2001). |
122 | Amperometric Biosensor for Polyphenol Based on
Horseradish Peroxidaze Immobilized on Gold Electrodes S. Imabayashi, Y.T. Kong, M. Watanabe Electroanalysis, 13, 408-412 (2001). |
123 | Pulsed-Gradient Spin-Echo NMR and F NMR Ionic
Diffusion Coefficient, Viscosity and Ionic Conductivity of Non-Chloroaluminate
Room Temperature Ionic Liquids A. Noda, K. Hayamizu, M. Watanabe J. Phys. Chem. B, 105, 4603-4610 (2001). |
124 | Studies of the Interface between Lithium electrodes
and Polymeric Electrolyte Systems using in situ FTIR Spectroscopy O.Chusid, Y.Gofer, D.Aurbach, M.Watanabe, T.Momma, T.Osaka J. Power Sources, 97-98, 632-636 (2001). |
125 |
Fast Electron Transfer between Glucose Oxidase
and Electrodes via Phenothiazine Mediators
with Poly(ethylene oxide) Spacers K. Ban, T. Ueki, Y. Tamada, T. Saito, S. Imabayashi, M. Watanabe Electrochem. Commun.,3, 649-653 (2001). |
126 |
Electrochemical Study on Swelling Change
of Poly(N-isopropyl acrylamide) Gels in Response to
Additives by Using Hydrogel-modified Microdisk
Electrodes and a Redox Probe
D. Nakayama, K. Sasaki, M. Watanabe Electrochemistry, 69, 1002-1007 (2001).
|
127 | Synthesis, Characterization, and Ion-conductive
Behavior in an Organic Solvent and in a Polyether
for Novel Lithium Salt of a Perfluorinated
Polyimide Anion H. Tokuda, S. Muto, N. Hoshi, T. Minakata, M. Ikeda, F. Yamamoto, M. Watanabe Macromolecules, 35, 1403-1411 (2002). |
128 | Electron Transfer Reaction of Glucose Oxidase
Hybrids Modified with Phenothiazine via Poly(ethylene
oxide) Spacer on Acidic Amino Acid Residues S. Aoki, K. Ishii, T. Ueki, K. Ban, S. Imabayashi, M. Watanabe Chem. Lett., 2002, 256-257. |
129 | Polymer Electrolytes Derived from Dendritic
Polyether Macromonomers M. Watanabe, T. Hirakimoto, S. Mutoh, A. Nishimoto Solid State Ionics, 148, 399-404 (2002). |
130 |
Polymer Gels that Memorize Structures of
Mesoscopically Sized Templates. Dynamic and Optical Nature of Periodic Ordered
Mesoporous Chemical Gels |
131 | Novel Thermosensitive Polyethers Prepared by Anionic Ring-opening Polymerization of Glycidyl Ether Derivatives S. Aoki, A. Koide, S. Imabayashi, M. Watanabe Chem. Lett., 2002, 1128-1129 |
132 | Synthesis of A Lewis-Acidic Boric Acid Ester
Monomer and Effect of Its Addition to Electrolyte
Solutions and Polymer Gel Electrolytes on
Their Ion Transport Properties S. Tabata, T. Hirakimoto, M. Nishiura, M. Watanabe Electrochim. Acta, 48, 2105-2112 (2003). |
133 | Characterization and Ionic Transport Properties
of Nano-composite Electrolytes Containing
a Lithium salt of a Superweak Aluminate Anion H. Tokuda, M. Watanabe Electrochim. Acta, 48, 2085-2091 (2003). |
134 | Electrical Communication between Glucose Oxidase and Electrodes Mediated by Phenothiazine-labeled Poly(ethylene oxide) Bound to Lysine Residues on the Enzyme Surface K. Ban, T. Ueki, Y. Tamada, T. Saito, S. Imabayashi, M. Watanabe Anal. Chem., 75, 910-917 (2003). |
135 | Template Synthesis of Chameleonic Poly(N-isopropylacrylamide)gels Using Self-assembled Colloid Silica Crystals Y. Takeoka, M. Watanabe Adv. Mater., 15, 199-201(2003). (published as a cover picture) |
136 | Template Synthesis of Poly(N-isopropylacrylamide) Mini-gels Using Interconnecting
Macroporous Polystyrene M. Kumoda, Y. Takeoka, M. Watanabe Langmuir, 19, 525-528 (2003). |
137 | Equilibrium potentials and charge transport
of an I-/I3- redox couple in an ionic
liquid R. Kawano, M. Watanabe Chem. Commun., 2003, 330-331. |
138 | Brønsted Acid-Base Ionic Liquids as Proton Conducting Non-Aqueous
Electrolytes A. Noda, M. A. B. H. Susan, K. Kudo, S. Mitsushima, K. Hayamizu, M. Watanabe J. Phys. Chem. B, 107, 4024-4033 (2003). |
139 | Brørnsted Acid-Base Ionic Liquids and Their Use as New Materials
for Anhydrous Proton Conductors Md. A, B. H. Susan, A. Noda, S. Mitsushima, M. Watanabe Chem. Commun. 2003, 938-939. |
140 | Comparison of Catalytic Electrochemistry of Glucose Oxidase Between
Covalently Modifies and Freely-diffusion Phenothiazine-labeled Poly(ethylene
oxide) Mediator Systems S. Imabayashi, K. Ban, T. Ueki, M. Watanabe J. Phys. Chem. B, 107, 8834-8839 (2003). |
141 | Inter/Intra-molecular Interaction and Chiral Recognition of Water-soluble
Copolymers and Their Hydrogels Containing an Optically Active Group D. Nakayama, Y. Nishio, M. Watanabe Langmuir, 19, 8542-8549 (2003). |
142 | Simple and Precision Preparation of Porous Gel for Colorimetric Glucose
Sensor by Templating Technique D. Nakayama, Y. Takeoka, M. Watanabe, K. Kataoka Angew. Chem. Int. Ed., , 42, 4197-4200 (2003). |
143 | Simple and Precision Design of Porous Gel as a Visible Indicator for
Ionic Species and Concentration H. Saito, Y. Takeoka, M. Watanabe Chem. Commun., 2003, 2126-2127. |
144 | A Novel Bronsted Acid-Base System as Anhydrous Proton Conductors for
Fuel Cell Electrolytes M.A.B.H. Susan, M. Yoo, H. Nakamoto, M. Watanabe Chem. Lett., 2003, 836-837. |
145 | Controlled Multi-Structural-Color of A Gel Membrane Y. Takeoka, M. Watanabe Langmuir, 19, 9554-9557 (2003). |
146 | Tuning Structural Color Changes of Porous Thermo-sensitive Gels Through
Quantitative Adjustment of The Cross-linker in Pre-gel Solutions Y. Takeoka, M. Watanabe Langmuir, 19, 9104-9106 (2003). |
147 | Self-Sustaining Peristaltic Motion on the Surface of a Porous Gel Y. Takeoka, M. Watanabe, R. Yoshida J. Am. Chem. Soc., 125, 13320-13321 (2003). |
148 | Synthesis and Properties of Ion-Conducting Substituted Polyacetylenes S. M. Abdul Karim, R. Nomura, F. Sanda, S. Seki, M. Watanabe, T. Masuda Macromolecules, 36, 4786-4789 (2003). |
149 | Proton Exchange Membranes Based on Sulfonamides for Fuel Cell Applications M.K. Rahman, G. Aiba, M.A.B.H. Susan, M. Watanabe Electrochim. Acta , 50 , 633-638 (2004). |
150 | Effect of Binder Polymer Structures used in Composite Cathodes on Interfacial Charge Transfer Processes in Lithium Polymer Batteries S. Seki, S. Tabata, S. Matsui, M. Watanabe Electrochim. Acta, 50 , 379-383 (2004). |
151 | Preparation and Transport Properties of New Lithium ionic Liquids H. Shoubukawa, H, Tokuda, S. Tabata, M. Watanabe Electrochim. Acta, 50 , 305-309 (2004). |
152 | High Performance Dye-Sensitized Solar Cells using Ionic Liquids as Their Electrolytes R. Kawano, H. Matsui, C. Matsuyama, A. Sato, M. A. B. H. Susan, N. Tanabe, M. Watanabe J. Photochem. Photobio. A, Chem., 164 , 87-92 (2004). |
153 | Application of an Ionic Liquid-Based Electrolyte to a 100x100 mm2 Sized Dye-Senitized Solar Cell H. Matsui, K. Okada, T. Kawashima, T. Ezure, N. Tanabe, R. Kawano and M. Watanabe J. Photochem. Photobio. A, Chem., 164 , 129-135 (2004). |
154 | Surface Activity and Redox Behavior of a Non-ionic Surfactant Containing a Phenothiazine Group M. A. B. H. Susan, A. Ishibashi, Y. Takeoka, M. Watanabe Colloid Surfaces B: Biointerfaces, 38 , 167-173 (2004). |
155 | Pyridine as a Brønsted Base for Anhydrous Proton Conductors M. A. B. H. Susan, H. Nakamoto, M. Yoo, M. Watanabe Trans. Mater. Res. Soc. Jpn., 29 , 1043-1046 (2004). |
156 | Dye-sensitized Solar Cells Using Ionic Liquid-based Electrolytes |
157 | Synthesis, Characterization and Copolymerization of a Series of Novel Acid Monomers Based on Sulfonamides for Proton Conducting Membranes |
158 | Design of Polymer Electrolytes Based on a Lithium Salt of a Weakly Coordinating Anion to Realize High Ionic Conductivity with Fast Charge Transfer Reaction |
159 | Effect of Modification Site on the Electron Transfer Reaction of Glucose Oxidase Hybrids Modified with Phenothiazine via Poly(ethylene oxide) Spacer |
160 | Effects of Novel Boric Acid Esters on Ion Transport Properties of Lithium Salts in Non-Aqueous Electrolyte Solutions and Polymer Electrolytes |
161 | Temperature-induced Reversible Change in the Redox Response of Phenothiazine-labeled Poly(ethoxyethyl glycidyl ether) and its Application to the Thermal Control of the Catalytic Reaction of Glucose Oxidase N. Nakadan, S. Imabayashi and M. Watanabe Langumuir , 20, 8786-8791 (2004) . |
162 | Physicochemical Properties and Structures of Room Temperature Ionic Liquids. 1. Variation of Anionic Species H. Tokuda, K. Hayamizu, K. Ishii, M. A. B. H. Susan, M. Watanabe J. Phys. Chem. B., 108, 16593-16600 (2004). |
163 | IR Spectroscopy and Quantum Mechanical Calculation of Lithium Ion Transport Conditions in a Single Ion Conducting Polymer Electrolyte H. Markusson, H. Tokuda, M. Watanabe, P. Johansson, Per Jacobsson Polymer, 45, 9057-9065 (2004). |
164 | Ionic Liquid Crystal as a Hole Transport Layer of Dye-Sensitized Solar Cells N.Yamanaka, R. Kawano, W. Kubo, T. Kitamura, Y. Wada, M. Watanabe, S. Yanagida Chem. Commun ., 2005 , 740-742. (Selected as a Hot Article) |
165 | Distinct Difference in Ionic Transport Behavior in Polymer Electrolytes Depending on Matrix Polymers and Incorporated Salts S. Seki, M. A. B. H. Susan, T. Kaneko, H. Tokuda, A. Noda, M. Watanabe J. Phys. Chem. B , 109 , 3886-3892 (2005). |
166 | Physicochemical Properties and Structures of Room Temperature Ionic Liquids 2. Variation of Alkyl Chain Length of the Imidazolium Cation H. Tokuda, K. Hayamizu, K. Ishii, M. A. B. H . Susan, M. Watanabe J. Phys. Chem. B , 109 , 6103-6110 (2005). |
167 | Ion Gels Prepared by In Situ Radical Polymerization of Vinyl Monomers in an Ionic Liquid and Their Characterization as Polymer Electrolytes M. A. B. H. Susan, T. Kaneko, A. Noda, M. Watanabe J. Am. Chem. Soc ., 127, 4976-4983 (2005). |
168 | Brønsted Acid-Base and -Polybase Complexes as Electrolytes for Fuel Cells Under Non-humidifying Conditions H. Matsuoka, H. Nakamoto, M. A. B. H. Susan, M. Watanabe Electrochimica Acta , 50, 4015-4021 (2005) . |
169 | Ion Transport Properties of Lithium Ionic Liquids and Their Ion Gels H. Shobukawa, H. Tokuda, M. A. B. H. Susan, M. Watanabe Electrochimica Acta , 50, 3872-3877 (2005) . |
170 | Anomaly of Charge Transport of an Iodide/Tri-iodide Redox Couple in an Ionic Liquid and Its Importance in Dye-sensitized Solar Cells R. Kawano, M. Watanabe Chem. Commun., 2005, 2107-2109. |
171 | Room Temperature Ionic Liquid-Organic Solvent Mixtures: Conductivity and Ionic Association H. Tokuda, S.-J. Baek, M. Watanabe Electrochemistry, 73, 620-622 (2005). |
172 | Electron Transfer Reactions of Glucose Oxidase at Au(111) Electrodes Modified with Phenothiazine Derivatives S. Nanjo, K. Ishii, T. Ueki, S. Imabayashi, M. Watanabe, K. Kano Anal. Chem., 77, 4142-4147 (2005) |
173 | Electric Double-Layer Capacitors Using “Bucky Gels” Consisting of an Ionic Liquid and Carbon Nanotubes T. Katakabe, T. Kaneko, M. Watanabe, T. Fukushima, T. Aida J. Electrochem. Soc., 152, A1913-A1916 (2005) . |
174 | Excellent Reversibility of Lithium Secondary Batteries Using a Room Temperature Ionic Liquid Mixture and Lithium Metal S. Seki, Y. Kobayashi, H. Miyashiro, Y. Mita, A. Usami, M. Watanabe Electrochemical and Solid-State Letters, 8, A577-A578 (2005). |
175 | Magnitude and Directionality of Interaction in Ion Pairs of Ionic Liquids: Relationship with Ionic Conductivity S. Tsuzuki, H. Tokuda, K. Hayamizu, M. Watanabe J. Phys. Chem. B., 109 , 16474-16481 (2005). |
176 | Physicochemical Properties and Structures of Room Temperature Ionic Liquids. 3. Variation of Cationic Species |
177 | Effect of the Modification of Phenothiazine-labeled Poly(ethylene oxide) on the Solubility and Enzymatic Electrocatalytic Reaction of Glucose Oxidase in Water / 1-Butyl-3-methylimidazolium Tetrafluoroborate Mixtures S. Imabayashi, K. Ishii, M. Watanabe Electrochem. Commun., 8, 45-50 (2006). |
178 | 高いリチウムイオン伝導性と迅速な界面電子移動反応の実現に向けた高分子固体電解質設計 徳田浩之、田畑誠一郎、関 志朗、渡邉正義 高分子論文集(総合論文)、63, 1-10 (2006). |
179 | イオン液体およびイオンゲル中の特異的電荷輸送とその材料科学的重要性 川野竜司、徳田浩之、片伯部 貫、中本博文、小久保 尚、今林慎一郎、渡邉正義 高分子論文集(総合論文)、63, 31-40 (2006). |
180 | Immobilization of horseradish peroxidase on binary self-assembled monolayers with carboxyl- and hydroxyl-terminal groups: Dependence of the amount of immobilized enzymes and their electrocatalytic activity on the monolayer composition S. Imabayashi, M. Kashiwa, and M. Watanabe Electrochemistry, 74, 186-188 (2006). |
181 | Highly Reversible Lithium Metal Secondary Batteries Using a Room Temperature Ionic Liquid / Lithium Salt Mixture and a Surface-Coated Cathode Active Material S. Seki, Y. Kobayashi, H. Miyashiro, Y. Ohno, A. Usami, Y. Mita, M. Watanabe, N. Terada Chem. Commun., 544-545 (2006). |
182 | Preparations and Optical Properties of Ordered Arrays of Submicron Gel Particles: Interconnected State and Trapped State M. Kumoda, Y. Takeoka, M. Watanabe Langmuir, 22, 4403-4407 (2006). |
183 | Lithium Secondary Batteries Using Modified-Imidazolium Room-Teperature Ionic Liquids |
184 | Upper Critical Solution Temperature Behavior
of Poly(N-isopropylacrylamide) in an Ionic Liquid and Preparation of Thermo-sensitive Nonvolatile Gels |
185 | How Ionic Are Room Temperature Ionic Liquids? An Indicator of the Physicochemical Properties |
186 | Imidazolium-based room-temperature ionic liquid / lithium salt mixture electrolytes for lithium secondary batteries - Effects of lithium salt concentration on conductive property, electrode reaction process, and battery performance |
187 | Thermally-Adjustable Multicolor Photochromic Hydrogel K. Matsubara, M. Watanabe, Y. Takeoka Angew. Chem. Int. Ed., 46, 1688-1692 (2007). |
188 | Effect of Core-Chell Micelle Formation on the Redox Properties of Phenothiazine-Labeled Poly(ethyl glycidyl ether)-block-Poly(ethylene oxide) R. Tsuda, S. Kaino, H. Kokubo, S. Imabayashi, M. Watanabe Colloid and Surfaces B, Biointerfaces. 56, 255-259 (2007) |
189 | Proton Conducting Properties of Bronsted Acid-Base Ionic Liquids Consisting of Bis(trifluoromethane sulfonyl)imide and Benzimidazole for Fuel Cell Electrolytes H. Nakamoto, A. Noda, K. Hayamizu, S. Hayashi, H. Hamaguchi, M. Watanabe J. Phys. Chem. C. 111, 1541-1548 (2007). |
190 | Lower Critical Solution Behavior of Linear Polymers in Ionic Liquids and the Corresponding Volume Phase Transition of Polymer Gels T. Ueki, M. Watanabe Langmuir, 23, 988-990 (2007). |
191 | Dye-Sensitized TiO2 Solar Cells using Imidazolium-Type Ionic Liquid Crystal systems as Effective Electrolytes N. Yamanaka, R. Kawano, W. Kubo, N. Masaki, T. Kitamura, Y. Wada, M. Watanabe, S. Yanagida J. Phys. Chem. B., 111, 4763-4769 (2007). |
192 | Dye-sensitized Solar Cells Using Amphiphilic Ruthenium Dyes and an Ionic Liquid Crystal as Their Electrolytes R. Kawano, M. K. Nazeeruddinn, A. Sato, M. Graetzel, M. Watanabe Electrochem. Commun., 9, 1134-1138 (2007). |
193 | Difference in Lower Critical Solution Temperature Behavior Between Random Copolymers and a Homopolymer Having Solvatophilic and Solvatophobic Structures in an Ionic Liquid |
194 | Reaction Between Diiodide Anion Radicals in Ionic Liquids |
195 | Acceleration of Redox Diffusion and Charge Transfer Rates in an Ionic Liquid with Nanoparticles Addition |
196 | Bronsted Acid-Base Ionic Liquids for Fuel Cell Electrolytes H. Nakamoto, M. Watanabe Chem. Commun., 2539-2541(2007). |
197 | Thermo- and Electro-chromic Hydrogel as Full-color Indicator K. Ueno, K. Matsubara, M. Watanabe, Y. Takeoka Adv. Mater.,19, 2807-2812 (2007). |
198 | Preparation and Solution Behavior of Thermosensitive Diblock Copolymer of Poly(ethyl glycidyl ether) and Poly(ethylene oxide)
M. Ogura, H. Tokuda, S. Imabayashi, M. Watanabe Langmuir, 23, 9429 - 9434 (2007). |
199 | Effects of Alkyl Chain Length in Imidazolium Cation Based Room-Temperature Ionic Liquids Used as Highly Reversible Lithium Secondary Battery Electrolytes S. Seki, Y. Mita, H. Tokuda, Y. Ohno, Y. Kobayashi, A. Usami, M. Watanabe, N. Terada, H. Miyashiro Electrochem. Solid-State Lett., 10, A237-A240 (2007). |
200 |
Inverse Opal Carbons Derived from a Polymer Precursor as Electrode Materials for Electric Double-Layer Capacitors |
201 | Colloidal Stability of Bare and Polymer-grafted Silica Nanoparticles in Ionic Liquids K. Ueno, A. Inaba, M. Kondoh, M. Watanabe Langmuir, 24, 5253-5259 (2008). |
202 | Macromolecules in Ionic Liquids:Progress, Challenges and Opportunities T. Ueki, M. Watanabe Macromolecules (Invited Perspective Article), 41, 3739-3749 (2008) |
203 | Quaternary Ammonium Room-Temperature Ionic Liquid Including an Oxygen Atom in Side Chain / Lithium Salt Binary Electrolytes ‐ Electrochemical Study S. Seki, Y. Ohno, H. Miyashiro, Y. Kobayashi, A. Usami, Y. Mita, N. Terada, K. Hayamizu, S. Tsuzuki, M. Watanabe J. Electrochem. Soc., 15, A421-A427 (2008). |
204 | Anionic Polymerization of Methyl Methacrylate in an Ionic Liquid H. Kokubo and M. Watanabe Polym. Adv. Tech.,19, 1441-1444 (2008). |
205 |
Nanocomposite Ion Gels Based on Silica Nanoparticles and an Ionic liquid: Ionic Transport, Viscoelastic Properties, and Microstructure K. Ueno, K. Hata, T. Katakabe, M. Kondoh, M. Watanabe J. Phys. Chem. B, 112, 9013-9019 (2008). |
206 | LCST-type liquid-liquid phase separation behavior of poly(ethylene oxide) derivatives in an ionic liquid R. Tsuda, K. Kodama, T. Ueki, H. Kokubo, S. Imabayashi, M. Watanabe Chem. Commun., 4939-4941 (2008). |
207 | Novel Styrene/N-Phenylmaleimide Alternating Copolymers with Pendant Sulfonimide Acid Groups for Polymer Electrolyte Fuel Cell Applications A. Oishi, H. Matsuoka, T. Yasuda, M. Watanabe J. Mater. Chem. 19 , 514-521 (2009). |
208 | Colloidal Interaction in Ionic Liquids: Effects of Ionic Structures and Surface Chemistry on Rheology of Silica Colloidal Dispersions K. Ueno, S. Imaizumi, K. Hata, M. Watanabe Langmuir , 25 , 825-831 (2009). |
209 | Doubly Thermo-Sensitive Self-Assembly of Diblock Copolymers in Ionic Liquids |
210 | Thermal Response of Poly(ethoxyethyl glycidyl ether) Grafted on Gold Surfaces Probed on the Basis of Temperature-dependent Water Wettability |
211 | Kinetic Salt Effects on an Ionic Reaction in Ionic Liquid/Methanol Mixtures -Vscosity and Coulombic Screening Effects - |
212 | Lower Critical Solution Temperature Phase Behavior of Linear Polymers in Imidazolium-Based Ionic Liquids: Effects of Structural Modifications |
213 |
Development of a soft actuator using a photocurable ion gel |
214 |
A Thermodynamic Study on the Phase Transitions of Poly(benzyl methacrylate) in Ionic Liquids as Solvent |
215 |
Role of the thermoresponsive segment in determining the redox properties of
phenothiazine-labeled poly(ethoxyethyl glycidyl ether)-block-poly(ethylene oxide) |
216 |
Soft glassy colloidal array in ionic liquid, which exhibits homogeneous, nonbrilliant, and angle-independent structural colours |
217 |
Electrochromism Based on Structural Colour Changes in a Polyelectrolyte Gel |
218 |
Hydrophobic Protic Ionic Liquid for Nonhumidified
Intermediate-Temperature Fuel Cell |
219 |
Thermosensitive Self-assembly of Diblock Copolymers with Lower
Critical Micellization Temperatures in an Ionic Liquid |
220 |
Photoisomerization-induced Tunable LCST Phase Separation of Azobenzene containing Polymers in an Ionic Liquid |
221 |
Molecular Dynamics Simulations of Ionic Liquids: Cation and
Anion Dependence of Self-Diffusion Coefficients of Ions |
222 | New glyme-cyclic imide lithium salt complexes as thermally stable electrolytes for lithium batteries T. Tamura, T. Hachida, K. Yoshida, N. Tachikawa, K. Dokko, M. Watanabe J. Power Sources. 195 , 6095-6100 (2010). |
223 | Fabrication of Protic Ionic Liquid/Sulfonated Polyimide Composite Membranes for Non-humidified Intermediate Temperature Fuel Cells S.-Y. Lee, T. Yasuda, and M. Watanabe J. Power Sources. 195 , 5909-5914 (2010). |
224 |
Electrolyte Properties of 1-Alkyl-2,3,5-Trimethylpyrazolium Cation-Based Room-Temperature Ionic Liquids for Lithium Secondary Batteries |
225 |
Ionicity in Ionic Liquids: Correlation with Ionic Structure and Physicochemical Properties |
226 |
Solid-State Dye-Sensitized Solar Cells using Polymerized Ionic Liquid Electrolyte and Platinum-Free Counter Electrode |
227 |
Resonance Shear Measurement of Nanoconfined Ionic Liquids |
228 |
Performances of Non-humidified Intermediate-temperature Fuel Cells Based on Protic Ionic Liquids Prepared from Oxo and Amide Acids |
229 |
Limiting Current Density in an Ionic Liquid Electrolyte for Lithium Batteries |
230 |
Physicochemical Properties of Glyme-Li Salt Complexes as a New Family of Room Temperature Ionic Liquids |
231 |
Non-humidified Intermediate Temperature Fuel Cells Using Protic Ionic Liquids |
232 |
Soft Glassy Colloidal Arrays in an Ionic Liquid: Colloidal Glass Transition, Ionic Transport, and Structural Color in Relation to Microstructure |
233 |
Thermosensitive, Soft Glassy and Structural Colored Colloidal Array in Ionic Liquid: Colloidal Glass to Gel Transition |
234 | Li(I) Diffusion and Limiting Current Density in Bis(trifluoromethylsulfonyl) amide-based Ionic Liquid for Lithium Batteries |
235 | From Colloidal Stability in Ionic Liquids to Advanced Soft Materials Using Unique Media |
236 | Electric Double-Layer Capacitors Using Inverse Opal Carbon Electrodes and Ion Gel Electrolytes |
237 | Structural Effects of Polyethers and Ionic Liquids in Their Binary Mixtures on Lower Critical Solution Temperature Liquid-Liquid Phase Separation Behavior |
238 | Favorable combination of positive and negative electrode materials with glyme-Li salt complex electrolytes in lithium ion batteries |
239 | Structural Aspects of the LCST Phase Behavior of Poly(benzyl methacrylate) in Room-temperature Ionic Liquid |
240 | Physicochemical and Electrochemical Properties of Glyme-LiN(SO2F)2 Complex for Safe Lithium-ion Battery Electrolyte |
241 | A Mesothermal Fuel Cell using Diethylmethylammonium Trifluoromethanesulfonate Absorbed Membrane with H3PO4 Addition and Various Amount of Electrolyte Loading in Catalyst Layer |
242 | Reversibility of Electrochemical Reactions of Sulfur Supported on Inverse Opal Carbon in Glyme-Li Salt Molten Complex Electrolytes |
243 | Oxidative-Stability Enhancement and Charge Transport Mechanism in Glyme-Lithium Salt Equimolar Complexes |
244 | UCST Phase Transition of Azobenzene-Containing Random Copolymer in an Ionic Liquid |
245 | LiMnPO4 Nanoparticles Prepared through Reaction between Li3PO4
and Molten Aqua-complex of Mn(II) for High-Performance Cathode of Lithium Batteries |
246 | Change from Solutions to Quasi-Ionic Liquids for Binary Mixtures
Consisting of Lithium Bis(trifluoro-methylsulfonyl)amide and Glymes |
247 | Liquid structure and Li+ ion solvation in bis(trifluoromethanesulfonyl) amide based ionic liquids composed of 1-ethyl-3-methylimidazolium and N-methyl-N-propylpyrrolidinium cations |
248 | Hydrogen Bonds in Protic Ionic Liquids and Their |
249 | Polymers in Ionic Liquids: Dawn of Neoteric Solvents and
Innovative Materials
|
250 | Protic Ionic Liquids Based on Decahydroisoquinoline: Lost
Superfragility and Ionicity-Fragility Correlation |
251 | Polymer Actuators Using Ion-Gel Electrolytes Prepared by Self-Assembly of ABA-Triblock Copolymers |
252 | High-performance ion gel with Tetra-PEG network |
253 | Structural heterogeneity and unique distorted hydrogen bonding in primary ammonium nitrate ionic liquids studied by high-energy X-ray diffraction experiments and MD simulations |
254 | Physicochemical Properties Determined by 冪Ka for Protic Ionic Liquids Based on an Organic Super-strong Base with Various Bronsted Acids |
255 | Effects of Polymer Structure on Properties of Sulfonated Polyimide / Protic Ionic Liquid Composite Membranes for Non-humidified Fuel Cell Applications |
256 | Correlation between Battery Performance and Lithium Ion Diffusion in Quasi-Ionic Liquids Consisting of Glyme-Lithium Bis(trifluoromethanesulfonyl)amide Equimolar Complexes |
257 | Driving Mechanisms of Ionic Polymer Actuators Having Electric Double Layer Capacitor Structures |
258 | Structural Analysis of High Performance Ion-gel Comprising Tetra-PEG Network |
259 | Unlocking of Interlocked Heteropolymer Gel by Light: Photoinduced Volume Phase Transition in an Ionic Liquid from a Metastable to an Equilibrium Phase |
260 | Thermoreversible high-temperature gelation of an ionic liquid with poly(benzyl methacrylate- b -methyl methacrylate- b -benzyl methacrylate) triblock copolymer |
261 | Microscopic insights into Ion Gel dynamics using neutron spectroscopy |
262 | Heat Capacities and Glass Transitions of Ion Gels PMMA/EMITFSI |
263 | Glyme-Lithium Salt Equimolar Molten Mixtures: Concentrated
Solutions or Solvate Ionic Liquids? |
264 | Light Controlled Reversible Micellization of a Diblock Copolymer
in an Ionic Liquid |
265 | Belouzov-Zhabotinsky reaction in protic ionic liquids |
266 | Structural Study on the UCST Phase Separation of Poly(N-isopropylacrylamide) in Ionic Liquid |
267 | Electrochemical Properties of Protic Ionic Liquids: Correlation between Open Circuit Potential of H2/O2 Cells under Non-humidified Conditions and DpKa |
268 | Heterogeneous Slow Dynamics of Imidazolium Based Ionic Liquids Studied by Neutron Spin Echo |
269 | Solvent Effect of Room-Temperature Ionic Liquids on Electrochemical Reactions in Lithium-Sulfur Batteries |
270 | Alternating Copolymer Based on Sulfonamide-Substituted Phenylmaleimide and Vinyl Monomers as Polymer Electrolyte Membrane |
271 | Specific Solvation of Benzyl Methacrylate in 1-Ethyl-3-methylimidazolium Bis(trifluoromethanesulfonyl)amide Ionic Liquid |
272 | Intermolecular Interactions in Li+-glyme and Li+-glyme-TFSA- complexes: Relatioship with Physicochemical Properties of [Li(glyme)][TFSA] Ionic Liquids |
273 | Comparative Study on Physicochemical Properties of Protic Ionic Liquids Based on Allylammonium and Propylammonium Cations |
274 | Charge / Discharge Performances of Glyme - Lithium Salt Equimolar Complex Electrolyte for Lithium Secondary Batteries |
275 | EQCM Measurement of Deposition and Dissolution of Lithium in Glyme-Li Salt Molten Complex |
276 | Printable Polymer Actuators from Ionic Liquid, Soluble Polyimide, and Ubiquitous Carbon Materials |
277 | Solvate Ionic Liquid Electrolyte for Li-S Batteries |
278 | Protic Ionic Liquids: Fuel Cell Applications |
279 | Novel Ionic Lubricants for Magnetic Thin Film Media |
280 | Solvate Ionic Liquid, [Li(triglyme)1][NTf2], as Electrolytefor Rechargeable Li/Air Battery: Discharge Depth and Reversibility |
281 | Effects of Carbon Electrode Materials on Performance of Ionic Polymer Actuators Having Electric Double-Layer Capacitor Structure |
282 | Unusual Li+ Ion Solvation Structure in Bis(fluorosulfonyl)amide Based Ionic Liquid |
283 | Anionic Effects on Solvate Ionic Liquid Electrolytes in Rechargeable Lithium-Sulfur Batteries |
284 | Thermoreversible nanogel shuttle between ionic liquid and aqueous phases |
285 | Phase Diagrams and Solvate Structures of Glyme-Na Salts Binary Mixtures |
286 | Interactions in Ion Pairs of Protic Ionic Liquids: Comparison with Aprotic Ionic Liquids |
287 | Ionic Liquid Electrolytes for Lithium-Sulfur Batteries |
288 | Proton transport in acid containing choline dihydrogen phosphate membranes for fuel cell |
289 | Energy Applications of Ionic Liquids |
290 | Ionicity in Ionic Liquids: Origin of Characteristic Properties of Ionic Liquids |
291 | Tuning of Sol–Gel Transition Temperatures for Thermo-reversible Ion Gels |
292 | Protic Ionic Liquids and Salts as Versatile Carbon Precursors |
293 | Solubility of Poly(methyl methacrylate) in Ionic Liquids in Relation to Solvent Parameters |
294 | Proton-conductivity Enhancing Ionic Liquid Consisting of Guanidine and Excess Trifluoromethanesulfonic acid. |
295 | Criteria for Solvate Ionic Liquid |
296 | Chelate Effects in Glyme/Lithium Bis(trifluoromethanesulfonyl)amide Solvate Ionic Liquids, Part 1: Stability of Solvate Cations and Correlation with Electrolyte Properties |
297 | Direct Synthesis of Nitrogen-doped Carbon Materials from Protic Ionic Liquids and Protic Salts: Structural and Physicochemical Correlations between Precursor and Carbon |
298 | Physicochemical Properties of Pentaglyme-Bis(trifluoromethanesulfonyl)amide Solvate Ionic Liquid |
299 | Chelate Effects in Glyme/Lithium Bis(trifluoromethanesulfonyl)amide Solvate Ionic Liquids, Part 2: Importance of Solvate-Structure Stability for Electrolytes of Lithium Batteries |
300 | Gelation of Solvate Ionic Liquid by Self-assembly of Block Copolymer and Characterization as Polymer Electrolyte |
301 | Mechanism of Li Ion Desolvation at the Interface of Graphite Electrode and Glyme–Li Salt Solvate Ionic Liquids |
302 | Binary Protic Ionic Liquid Mixtures as Fuel Cell Electrolytes: High Electrochemical Activity and Facile Proton Transport |
303 | New ionic lubricants for magnetic thin-film media |
304 | Structures of [Li(glyme)]+ complexes and their interactions with anions in equimolar mixtures of glymes and Li[TFSA]: Analysis by molecular dynamics simulations |
305 | Glyme-based solvate ionic liquids at the HOPG and Au(111) electrode interface as a function of potential |
306 | Carbon Materialization of Ionic Liquids: From Solvents to Materials |
307 | Upper Limit of Nitrogen Content in Carbon Materials |
308 | Pentaglyme-K Salt Binary Mixtures: Phase Behavior, Solvate Structures, and Physicochemical Properties |
309 | Effect of Ionic Size on Solvate Stability of Glyme-Based Solvate Ionic Liquids |
310 | Li+ Ion Transport in Polymer Electrolytes Based on a Glyme-Li Salt Solvate Ionic Liquid |
311 | Photoreversible Gelation of a Triblock Copolymer in an Ionic Liquid |
312 | Solvent Activity in Electrolyte Solution Controls Electrochemical Reactions in Li-Ion and Li-Sulfur Batteries |
313 | Li+ Solvation in Glyme-Li Salt Solvate Ionic Liquids |
314 | Protic salt-derived nitrogen-doped mesoporous carbon for oxygen-reduction reaction, supercapacitors, and lithium-sulfur batteries |
315 | Hydrogen-bonding supramolecular protic salt as an "all-in-one" precursor for nitrogen-doped mesoporous carbons for CO2 adsorption |
316 | Micelle structure of novel diblock polyethers in water and two protic ionic liquids (EAN and PAN) |
317 | Recent Advances in Electrolytes for Lithium-Sulfur Batteries |
318 | Nitrogen-Doped Inverse Opal Carbons Derived from an Ionic Liquid Precursor for the Oxygen Reduction Reaction |
319 | Porous ionic liquids: synthesis and application |
320 | One-pot pyrolysis of lithium sulfate and graphene nanoplatelet aggregates: in situ formed Li2S/graphene composite for lithium-sulfur batteries |
321 | Adsorption of Polyether Block Copolymers at Silica–Water and Silica–Ethylammonium Nitrate Interfaces |
322 | Temperature and light-induced self-assembly changes of a tetra-arm diblock copolymer in an ionic liquid |
323 | One-step, template-free synthesis of highly porous nitrogen/sulfur-codoped carbons from a single protic salt and their application to CO2 capture |
324 | Ionic Conductivity and Viscosity of Solvate Ionic Liquids Composed of Glymes and Excess Lithium Bis(Trifluoromethylsulfonyl)Amide |
325 | Deposition and dissolution of lithium through lithium phosphorus oxynitride thin film in lithium bis(trifluoromethylsulfonyl)amide-glyme solvate ionic liquid |
326 | Lithium-tin Alloy/Sulfur Battery with a Solvate Ionic Liquid Electrolyte |
327 | Structural and aggregate analyses of (Li salt + glyme) mixtures: the complex nature of solvate ionic liquids |
328 | Thermally Reversible Ion Gels with Photohealing Properties Based on Triblock Copolymer Self-Assembly |
329 | Photo-healable ion gel with improved mechanical properties using a tetra-arm diblock copolymer containing azobenzene groups |
330 | Beyond solvents and electrolytes: Ionic liquids-based advanced functional materials |
331 | Ionic liquids and their solid-state analogues as materials for energy generation and storage |
332 | Thermosensitive soft glassy colloidal arrays of block copolymer grafted silica nanoparticles in an ionic liquid |
333 | Thermal and Electrochemical Stability of Tetraglyme-Magnesium Bis(trifluoromethanesulfonyl)amide Complex: Electric Field Effect of Divalent Cation on Solvate Stability |
334 | Li+ Solvation and Ionic Transport in Lithium Solvate Ionic Liquids Diluted by Molecular Solvents |
335 | Effects of Compatibility of Polymer Binders with Solvate Ionic Liquid Electrolytes on Discharge and Charge Reactions in Lithium-Sulfur Batteries |
336 | Hierarchical sol-gel transition induced by thermo-sensitive self-assembly of an ABC triblock polymer in an ionic liquid |
337 | Bulk nanostructure of the prototypical ‘good' and ‘poor' solvate ionic liquids [Li(G4)][TFSI] and [Li(G4)][NO3] |
338 | Li+ local structure in hydrofluoroether diluted Li-glyme solvate ionic liquid |
339 | Effects of Non-Equimolar Lithium Salt Glyme Solvate Ionic Liquid on the Control of Interfacial Degradation for Lithium-Secondary Batteries |
340 | SANS study on the solvated structure and molecular interactions of a thermo-responsive polymer in a room temperature ionic liquid |
341 | Promising Cell Configuration for Next-Generation Energy Storage: Li2S/Graphite Battery Enabled by a Solvate Ionic Liquid Electrolyte |
342 | Self-assembly of Polyether Diblock Copolymers in Water and Ionic Liquids |
343 | Design and Materialization of Ionic Liquids based on an Understanding of their Fundamental Properties |
344 | Li+ local structure in Li-tetraglyme solvate ionic liquid revealed by neutron total scattering experiments with 6/7Li isotopic substitution technique |
345 | From Macromolecular to Small-molecular Trigger: Facile Method Towards Photoinduced LCST Phase Behavior of Thermosensitive Polymers in Mixed Ionic Liquids Containing Azobenzene Moiety |
346 | Si/Li2S Battery with Solvate Ionic Liquid Electrolyte |
347 | Photo-Dimerization Induced Dynamic Viscoelastic Changes in ABA Triblock Copolymer-Based Hydrogels for 3D Cell Culture |
348 | Dissociation and Diffusion of Glyme-Sodium Bis(trifluoromethanesulfonyl)amide Complexes in Hydrofluoroether-Based Electrolytes for Sodium Batteries |
349 | Optimizing the Pore Structure of Cathodic Carbon Supports for Lithium-Sulfur Batteries by Exploiting Solvate Ionic Liquid Electrolytes |
350 | Suppression of Water Absorption by Molecular Design of Ionic Liquid Electrolyte for Li-Air Battery |
351 | Pressure Response of a Thermo-responsive Polymer in an Ionic Liquid |
352 | A Design Approach to Lithium-ion Battery Electrolyte Based on Diluted Solvate Ionic Liquids |
353 | Application of Ionic Liquids to Energy Storage and Conversion Materials and Devices |
354 | Boundary Layer Friction of Solvate Ionic Liquids as a Function of Potential |
355 | Stability of Glyme Solvate Ionic Liquid as Electrolyte for Rechargeable Li/Air Battery |
356 | Tetra-PEG Network Containing Ionic Liquid Synthesized via Michael Addition Reaction and Its Application to Polymer Actuator |
357 | A Polymer Electrolyte Containing Solvate Ionic Liquid with Increased Mechanical Strength Formed by Self-assembly of ABA-type Ionomer Triblock Copolymer |
358 | Effect of Anion in Glyme Based Electrolyte for Li-O2 Batteries : Stability/Solubility of Discharge Intermediate |
359 | Oxygen Reduction Reaction in Highly Concentrated Electrolyte Solutions of Lithium Bis(trifluoromethanesulfonyl)amide/Dimethyl Sulfoxide |
360 | Sulfonated Polyimide/Ionic Liquid Composite Membranes for Carbon Dioxide Separation |
361 | Effect of variation in anion type and glyme length on the nanostructure of the solvate ionic liquid /graphite interface as a function of potential |
362 | Effect of cation on stability of cation-glyme complexes and their interactions with
[TFSA]- anion |
363 | Microscopic Structure of Solvated Poly(benzyl methacrylate) in an Imidazolium-Based Ionic Liquid: High-Energy X-ray Total Scattering and All-Atom MD Simulation Study |
364 | Micellization/demicellization self-assembly change of ABA triblock copolymers induced by a photoswitchable ionic liquid with a small molecular trigger |
365 | Electrochemical deposition and dissolution of lithium on a carbon fiber composite electrode in a solvate ionic liquid |
366 | Long-cycle-life Lithium-Sulfur Batteries with Lithium Solvate Ionic Liquids |
367 | Physicochemical Characterization of a Photoinduced Sol-Gel Transition of an Azobenzene-Containing ABA Triblock Copolymer/Ionic Liquid System |
368 | Three-Dimensionally Hierarchical Ni/Ni3S2/S Cathode for Lithium-Sulfur Battery |
369 | Exceptionally High Electric Double Layer Capacitance of Oligomeric Ionic Liquids |
370 | Thermo-sensitive Phase Separation Behavior of Poly(benzyl methacrylate)/Solvate Ionic Liquid Solutions |
371 | Amphoteric Water as Acid and Base for Protic Ionic Liquids and Their Electrochemical Activity When Used as Fuel Cell Electrolytes |
372 | Phase behaviour and thermodynamics: general discussion |
373 | Structure and dynamics of ionic liquids: general discussion |
374 | Electrochemistry: general discussion |
375 | Ionic liquids at interfaces: general discussion |
376 | Advanced materials based on polymers and ionic liquids |
377 | Polymer Electrolytes Containing Solvate Ionic Liquids: A New Approach to Achieve High Ionic Conductivity, Thermal Stability, and a Wide Potential Window |
378 | Controlled Sol-Gel Transitions of a Thermoresponsive Polymer in a Photoswitchable Azobenzene Ionic Liquid as a Molecular Trigger |
379 | Simple Combination of Protic Salt and Iron Halide: Precursor for Fe, N and S Co-Doped Catalyst for Oxygen Reduction Reaction in Alkaline and Acidic Media |
380 | Molecular Dynamics Study of Thermodynamic Stability and Dynamics of [Li(Glyme)]+ Complex in Lithium-Glyme Solvate Ionic Liquids |
381 | Electrolyte Composition in Li/O2 Batteries With LiI Redox Mediators: Solvation Effects on Redox Potentials and Implications for Redox Shuttling
Azusa Nakanishi, Morgan L. Thomas, Hoi-Min Kwon, Yuki Kobayashi, Ryoichi Tatara, Kazuhide Ueno, Kaoru Dokko and Masayoshi Watanabe |
382 | Photocurable ABA triblock copolymer-based ion gels utilizing photodimerization of coumarin |
383 | Magnesium Bis(trifluoromethanesulfonyl)amide Complexes with Triglyme and Asymmetric Homologues: Phase Behavior, Coordination Structures and Melting Point Reduction |
384 | Protic ionic liquids with primary alkylamine-derived cations: dominance of hydrogen bonding on observed physicochemical properties |
385 | Ionic Polymer Actuators Using Poly(ionic liquid) Electrolytes |
386 | Neutron Diffraction and Quasielastic Scattering Studies on Layer Nanostructures and Related Dynamics in Imidazoliun-based Ionic Liquids |
387 | Glyme-Sodium Bis(fluorosulfonyl)amide Complex Electrolytes for Sodium Ion Batteries |
388 | Self-Healing Micellar Ion Gels Based on Multiple Hydrogen Bonding |
389 | Tuning NaO2 Cube Sizes by Controlling Na+ and Solvent Activity in Na-O2 Batteries |
390 | Enhanced Electrochemical Stability of Molten Li Salt Hydrate Electrolytes by Addition of Divalent Cations |
391 | Block copolymer self-assembly in ionic liquids |
392 | From Ionic Liquids to Solvate Ionic Liquids: Challenges and Opportunities for Next Generation Battery Electrolytes |
393 | Sulfonated Polyimide/Ionic Liquid Composite Membranes for CO2 Separation: Transport Property in Relation to Their Nano-structures |
394 | Photo/Thermoresponsive ABC Triblock Copolymer-Based Ion Gels: Photoinduced Structural Transitions |
395 | Photohealable ion gels based on the reversible dimerisation of anthracene |
396 | Direct Evidence for Li Ion Hopping Conduction in Highly Concentrated Sulfolane-Based Liquid Electrolyte |
397 | Liquid Structures and Transport Properties of Lithium Bis(fluorosulfonyl)amide/ Glyme Solvate Ionic Liquids for Lithium Batteries |
398 | Cluster–Micelle Transition of Thermo/Photoresponsive ABC Triblock Copolymers in Ionic Liquids |
399 | Solvate Ionic Liquids for Li, Na, K, and Mg Batteries |
400 | Solid Polymer Electrolytes Based on Polystyrene−Polyether Block Copolymers having Branched Ether Structure |
401 | Key factor governing the physicochemical properties and extent of proton transfer in protic ionic liquids: ΔpKa or chemical structure? |
402 | Light-Triggered Viscoelastic Transition of Block Copolymer Ion Gels in a Photo-switchable Azobenzene Ionic Liquid |
403 | Polymer Electrolytes Based on a Homogeneous Poly(ethylene glycol) Network and Their Application to Polymer Actuators |
404 | Ionic transport in highly concentrated lithium bis(fluorosulfonyl)amide electrolytes with keto ester solvents: Structural implications for ion hopping conduction in liquid electrolytes |
405 | Effect of electrolyte composition on performance and stability of lithium-sulfur batteries |
406 | Application of a protic ionic liquid to CO2 separation in a sulfonated polyimide-derived ion gel membrane: towards replacing aprotic ionic liquid |
407 | Solvation Structure of Poly(benzyl methacrylate) in a Solvate Ionic Liquid: Preferential Solvation of Li-Glyme Complex Cation |
408 | Effects of Sulfur Loading, Cathode Porosity and Electrolyte Amount on Li-S Battery Performance with Solvate Ionic Liquid Electrolyte |
409 | Sulfolane-based highly concentrated electrolytes of lithium bis(trifluoromethanesulfonyl)amide: Ionic transport, Li ion coordination and Li-S battery performance |
410 | Li-Ion Hopping Conduction in Highly Concentrated Lithium Bis(fluorosulfonyl)amide / Dinitrile Liquid Electrolytes |
411 | Role of Cation Structure in CO2 Separation by Ionic Liquid/Sulfonated Polyimide Composite Membrane |
412 | Glyme-Li salt equimolar molten solvates with iodide/triiodide redox anions |
413 | Thermodynamic Effect of Anion Activity on Electrochemical Reactions Involving Li+ Ion in Room Temperature Ionic Liquids |
414 | Effect of Ionic Liquid Structure on Viscoelastic Behavior of Hydrogen-Bonded Micellar Ion Gels |
415 | Physicochemical compatibility of high-concentrated solvate ionic liquids and low-viscosity dilute solvent |
416 | Transport and Mechanical Properties of ABA-type Triblock Copolymer Ion Gels Correlated with Their Microstructures |
417 | Excellent dispersibility of single-walled carbon nanotubes in highly concentrated electrolytes and its application to a gel electrode for Li-S batteries |
418 | Dynamic Chelate Effect on the Li+-ion Conduction in Solvate Ionic Liquids |
419 | Rheological and ionic transport properties of nanocomposite electrolytes based on protic ionic liquids and silica nanoparticles |
420 | Graphite-Lithium Sulfide Battery with a Single-Phase Sparingly Solvating Electrolyte |
421 | Liquid-state Optoelectronics Using Liquid Metal |
422 | High performance electric double layer transistors using solvate ionic liquids |
423 | High Transference Number of Na Ion in Liquid-State Sulfolane Solvates of Sodium Bis(fluorosulfonyl)amide |
424 | Effects of polysulfide solubility and Li ion transport on performance of Li2S batteries using sparingly solvating electrolytes |
425 | Highly concentrated LiN(SO2CF3)2/dinitrile electrolytes: Liquid structures, transport properties, and electrochemistry |
426 | Molten Li salt solvate-silica nanoparticle composite electrolytes with tailored rheological properties |
427 | Effects of anion on liquid structures of ionic liquids at graphene electrode interface analyzed by molecular dynamics simulations |
428 | Effects of fluoroethylene carbonate addition to Li-glyme solvate ionic liquids on their ionic transport properties and Si composite electrode performance |
429 | Effect of network homogeneity on mechanical, thermal and electrochemical properties of solid polymer electrolytes prepared by homogeneous 4-arm poly(ethylene glycols) |
430 | Azobenzene-based Ionic Liquid Switches Phase Separation of Poly(N-isopropylacrylamide) Aqueous Solutions as a Molecular Trigger Leading to UV Shutdown of Ionic Transport |
431 | Azobenzene Molecular Trigger Controlling Phase Transitions of PNIPAm in Ionic Liquids and Light Controlled Adhesiveness |
432 | Speciation analysis and thermodynamic criterion of solvate ionic liquids; whether ionic liquids or super-concentrated solutions? |
433 | Role of Viscosity in Deviations from the Nernst-Einstein Relation |
434 | Recent progress in self-healing ion gels |
435 | Solvent effects on Li ion transference number and dynamic ion correlations in glyme- and sulfolane-based molten Li salt solvates |
436 | Structures and electrochemistry of γ-butyrolactone solvates of Na salts |
437 | Microphase-separated structures of ion gels consisting of ABA-type block copolymers and an ionic liquid: A key to escape from the trade-off between mechanical and transport properties |
438 | Reversible Ion-Conducting Switch by Azobenzene Molecule with Light Controlled Sol-gel Transitions of PNIPAm Ion Gel |
439 | Operando soft X-ray absorption spectroscopic study on microporous carbon-supported sulfur cathodes |
440 | Comparison of sulfur cathode reactions between concentrated liquid electrolyte system and solid-state electrolyte system by soft X-ray absorption spectroscopy |
441 | Molecularly Tunable Polyanions for Single-Ion Conductors and Poly(Solvate Ionic Liquids) |