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2023年

1. Effect of Solid Electrolyte Interphase on Sodium-ion Insertion and Deinsertion in Non-Graphitizable Carbon
   S. Tsujimoto, C. Lee, Y. Miyahara, K. Miyazaki, T. Abe
   Journal of the Electrochemical Society, 170, 090526 (2023).
2. Effect of Surface Structure of Graphite on the Passivation Ability of Solid Electrolyte Interphases
   Y. Masuda, A. Inoo, Y. Kondo, Y. Yokoyama, Y. Miyahara, K. Miyazaki, T. Abe
   Electrochemistry, 91, 097002 (2023).
3. Detecting Electrochemical Changes in a Nickel-Zinc Battery by Operando X-ray Computed-Tomography Analysis during Charge-Discharge Tests
   D. Kohmoto, K. Miyazaki, M. Morita, K. Fukuda, T. Abe
   X-Ray Spectrometry, in press (2023).
4. Insights into the Interlayer Water-Induced Reversible Proton Insertion and Deinsertion in Ruddlesden-Popper Layered Fe Oxides
   S. Tashiro, Y. Miyahara, C. Lee, H. Kiuchi, T. Abe, K. Miyazaki
   Chemistry of Materials, 35, 7039-7048 (2023).
5. Practical Reversibility of CuF₂ in a Bulk-Type All-Solid-State Fluoride-Ion Battery
   K. Shimoda, Y. Morita, K. Noi, T. Fukunaga, Z. Ogumi, T. Abe
   ACS Energy Letters, 8, 2570–2575 (2023). [RISING]
6. Evolutionary algorithm directed synthesis of mixed anion compounds LaF₂X (X = Br, I) and LaFI₂
   D. Kato, P. Song, H. Ubukata, H. Taguro, C. Tassel, K. Miyazaki, T. Abe, K. Nakano, K. Hongo, R. Maezono, H. Kageyama
   Angewandte Chemie International Edition, 62, e202301416 (2023).
7. Correlation between Properties of Various Carbon Defects and Electrochemical Charge Carrier Storage Mechanisms for Use in Li- and Na-based Rechargeable Batteries
   Y. Ito, J, Ni, C. Lee, X. Gao, Y. Miyahara, K. Miyazaki, T. Abe
   Chemical Physics Reviews, 4, 031301 (2023).
8. Solid Electrolyte Interphase-ization of Mg²⁺-Blocking Layers for Lithium Ions in Anode-Free Rechargeable Lithium Metal Batteries
   D. Yu, C. Lee, W. Wang, Y. Miyahara, K. Miyazaki, T. Abe
   Electrochimica Acta, 449, 142215 (2023).
9. Conductometric Analysis of Ion Equilibrium in Li⁺/F⁻ and Mg²⁺/F⁻ Hybrid Electrolyte Solutions
   Y. Yokoyama, M. Kawasaki, T. Abe, Z. Ogumi, K. Kano
   Electrochemistry, 91, 037006 (2023). [RISING]
10. Analysis of Intermediate States of Electrode-slurry by Electronic Conductivity Measurements
    M. Takeno, S. Katakura, K. Miyazaki, T. Abe, T. Fukutsuka
    Carbon Reports, 2, 91-96 (2023).
11. Effects of Mixed Phases on Electrical Conductivities for (CeF₃)_1–m(CaF₂)_m Fast-Fluoride-Ion-Conducting Solid Electrolytes
    K. Mori, S. Torii, K. Iwase, T. Abe, T. Fukunaga
    The Journal of Physical Chemistry C, 127, 59-68 (2023). [RISING]

2022年

1. Complexation of F^– by Li⁺ and Mg²⁺ Ions as Inorganic Anion Acceptors in Lactone-Based Li⁺/F^– and Mg²⁺/F^– Hybrid Electrolytes for Fluoride Shuttle Batteries
   M. Kawasaki, K. Morigaki, G. Kano, R. Takekawa, J. Kawamura, Y. Yokoyama, K. Kano, T. Abe, Z. Ogumi
   Journal of The Electrochemical Society, 169 (11), 110508 (2022). [RISING]

2. Examination of Morphological Changes of Active Materials for Solution-Based Rechargeable Fluoride Shuttle Batteries Using In Situ Electrochemical Atomic Force Microscopy Measurements
   K. Okazaki, H. Nakamoto, T. Yamanaka, T. Fukunaga, Z. Ogumi, T. Abe
   Chemistry of Materials, 34, 8280-8288 (2022). [RISING]
   Selected as the Supplementary Cover Art
3. Electrochemical Impedance Spectroscopy Part 2: Applications
   K. Ariyoshi , A. Mineshige, M. Takeno, T. Fukutsuka, T. Abe, S. Uchida, Z. Siroma
   Electrochemistry, 90, 102008 (2022).
4. Evolution of fluoride shuttle battery reactions and three-dimensional morphology changes of BiF₃ microparticles in an ethylene carbonate-based liquid electrolyte
   T. Yamanaka, Z. Ogumi, T. Abe
   Energy Advances, 1, 632–640 (2022). [RISING]
5. Fluoride Shuttle Battery Reactions of CuF₂: Intermediate Phase for Defluorination
   T. Yamanaka, Z. Ogumi, T. Abe
   The Journal of Physical Chemistry C, 126, 12361-12369 (2022). [RISING]
6. Influence of Strong Ionic Interaction on the Kinetics of Graphite Intercalation Compound Formation
   K. Miyazaki, A. Mizawa, Y. Ito, F. Sagane, T. Abe
   ChemSusChem, 16, e202201569 (2022).
7. Rechargeable Graphite Fluoride Electrodes Realized by Fluoride Anion Insertion and Deinsertion
   Y. Ito, C. Lee, Y. Miyahara, S. Yamazaki, T. Yamada, K. Hiraga, T. Abe, K. Miyazaki
   Chemistry of Materials, 34, 8711-8718 (2022).
8. Analysis Method for Rotating Disk Voltammograms of Electrocatalytic Reaction -Oxygen Reduction Reaction-
   Y. Yokoyama, T. Nagai, A. Ishihara, M. Yamamoto, K. Miyazaki, T. Abe, K. Kano
   Electrochemistry, 90, 103002 (2022).
9. Influence of Tris(trimethylsilyl)phosphite Additive on the Electrochemical Performance of Lithium-ion Batteries using Thin-film Ni-rich Cathodes
   W. Wang, C. Lee, Y. Miyahara, T. Abe, K. Miyazaki
   Electrochemistry, 90, 097001 (2022).
10. Fluorine-doping Strategy to Improve the Surface and Electrochemical Properties of LiNi_0.6Co_0.2Mn_0.2O₂ Cathodes for Use in Lithium-ion Batteries
    W. Wang, C. Lee, Y. Miyahara, T. Abe, K. Miyazaki
    ChemElectroChem, 9, e202200701 (2022).
11. Reciprocal Sum Expression for Steady-state Kinetics -Enzyme Reactions and Voltammetry-
    Y. Yokoyama, M. Yamamoto, K. Miyazaki, T. Abe, K. Kano
    Electrochemistry, 90, 103002 (2022).
12. Effects of a Solid Solution Outer Layer of TiO₂ on the Surface and Electrochemical Properties of LiNi_0.6Co_0.2Mn_0.2O₂ Cathodes for Lithium-ion Batteries Through the Use of Thin-film Electrodes
    W. Wang, C. Lee, D. Yu, Y. Kondo, Y. Miyahara, T. Abe, K. Miyazaki
    ACS Applied Energy Materials, 5, 5117-5126 (2022).
13. “Effects of Solvation Structures on the Co-intercalation Suppression Ability of the Solid Electrolyte Interphase Formed on Graphite Electrodes”
    A. Inoo, T. Fukutsuka, Y. Miyahara, Y. Kondo, Y. Yokoyama, K. Miyazaki, T. Abe
    Chemistry Letters, 51, 618–621 (2022).
14. Kinetics of Interfacial Ion Transfer in Lithium-Ion Batteries: Mechanism Understanding and Improvement Strategies
    Y. Kondo, T. Abe, Y. Yamada
    ACS Applied Materials & Interfaces, 14, 22706–22718 (2022).
15. Dendrite Growth of Lithium through Separator Using In Situ Measurement Technique
    I. Arise, Y. Miyahara, K. Miyazaki, T. Abe
    Journal of Electrochemical Society, 169, 020546 (2022).
16. Kinetics of Interfacial Lithium-ion Transfer between a Graphite Negative Electrode and a Li₂S-P₂S₅ Glassy Solid Electrolyte
    D. Yu, M. Huang, Y. Miyahara, K. Miyazaki, A. Hayashi, M. Tatsumisago, T. Abe, T. Fukutsuka
    Electrochemistry, 90, 037003 (2022).
17. Electrochemical properties of Ni-rich LiNi_xCo_yMn_zO₂ materials for use in aqueous lithium-ion batteries: How do they differ from those in non-aqueous systems?
    C. Lee, Y. Miyahara, T. Abe, K. Miyazaki
    Journal of Power Sources, 524, 231081 (2022).
18. Black Phosphorus-Graphite Material Composites with a Low Activation Energy of Interfacial Conductivity
    Y. Ju, R. N. Nasara, C. Lee, Y. Miyahara, T. Abe, K. Miyazaki
    Electrochemistry, 90, 027007 (2022).
19. Functional Role of Aramid Coated Separator for Dendrite Suppression in Lithium-ion Batteries
    I. Arise, Y. Miyahara, K. Miyazaki, T. Abe
    Journal of the Electrochemical Society, 169, 010536 (2022).
20. Influence of Chemical Operation on the Electrocatalytic Activity of Ba_0.5Sr_0.5Co_0.8Fe_0.2O_3−δ for the Oxygen Evolution Reaction
    Y. Inoue, Y. Miyahara, K. Miyazaki, Y. Kondo, Y. Yokoyama, T. Abe
    Journal of the Electrochemical Society, 169, 010518 (2022).
21. LiNi_0.5Mn_1.5O₄ Cathode Materials Co-Doped with La³⁺ and S^2- for Use in Lithium-Ion Batteries
    W. Wang, H. Hanzawa, K. Machida, K. Miyazaki, T. Abe
    Electrochemistry, 90, 017010 (2022).
22. Impact of Hydrogen Peroxide on Carbon Corrosion in Aqueous KOH Solution
    A. Ikezawa, K. Miyazaki, T. Fukutsuka, T. Abe
    Electrochemistry, 90, 017011 (2022).
23. Electrochemical Performance of Nanorod-like (La, Zr) Co-Doped Li-rich Li_1.2Ni_0.2Mn_0.6O₂ Cathodes for Use in Lithium-Ion Batteries
    W. Wang, H. Hanzawa, K. Machida, K. Miyazaki, T. Abe
    Electrochemistry, 90, 017008 (2022).
24. Study of Behavior of Supporting Electrolyte Ion of Fluoride Shuttle Battery Using Anomalous X-Ray Scattering
    Y. Takabayashi, K. Kimura, H. Konishi, T. Minato, R. Takekawa, T. Nakatani, S. Fujinami, T. Abe, K. Hayashi
    Advanced Energy and Sustainability Research, Early View, 2200020 (2022). [RISING]
25. Electrolytes for Room-Temperature Rechargeable Fluoride Shuttle Batteries
    S. Kawauchi, H. Nakamoto, R. Takekawa, T. Kobayashi, T. Abe
    ACS Applied Energy Materials, 5, 2096–2103 (2022). [RISING]
26. Reversible Charge/Discharge Reaction of a Ternary Metal Fluoride, Pb2CuF6: A Highly Conductive Cathode Material for Fluoride-Ion Batteries
    T. Tojigamori, H. Nakajima, H. Miki, N. Matsui, T. Nakatani, S. Fujinami, K. Noi, H. Tsukasaki, K. Suzuki, M. Hirayama, S. Mori, T. Abe, R. Kanno
    ACS Applied Energy Materials, 5, 1002–1009 (2022). [RISING]
27. Effects of porosity and ionic liquid impregnation on ionic conductivity of garnet-based flexible sheet electrolytes
    E. J. Cheng, M. Liu, Y. Li, T. Abe, K. Kanamura
    Journal of Power Sources, 517, 230705 (2022).
28. Ionic liquid-containing cathodes empowering ceramic solid electrolytes
    E. J. Cheng, M. Shoji, T. Abe, K. Kanamura
    iScience, 25, 103896 (2022).

2021年

1. High fluoride-ion conductivity and fluoride-ion conductor−insulator transition in fluorinated hexagonal boron nitride
   T. Takami, T. Saito, T. Kamiyama, K. Kawahara, T. Fukunaga, T. Abe
   Materials Today Physics, 21, 100523 (2021). [RISING]
2. Influence of conductive additives on the electrochemical compatibility of cupper fluoride cathode for FSB
   A. Celik Kucuk, T. Abe
   Journal of Electroanalytical Chemistry, 900, 115744 (2021). [RISING]
3. Analysis of Intercalation/De-Intercalation of Li Ions Into/From Graphite at 0 °C via Operando Synchrotron X-ray Diffraction
   H. Fujimoto, S. Takagi, K. Shimoda, H. Kiuchi, K. Okazaki, T. Murata, Z. Ogumi, T. Abe
   Journal of The Electrochemical Society, 168, 090515 (2021). [RISING]
4. Chromogenic Amorphous MoO3–x Nanosheets and Their Nanostructured Films for Smart Window Applications
   M. Morita, S. Toyoda, H. Kiuchi, T. Abe, K. Kumagai, T. Saida, K. Fukuda
   ACS Applied Nano Mater.ials, 4, 8781–8788 (2021). [RISING]
5. Defluorination/fluorination mechanism of Bi0.8Ba0.2F2.8 as a fluoride shuttle battery positive electrode
   K. Shimoda, T. Minato, H. Konishi, G. Kano, T. Nakatani, S. Fujinami, A. Celik- Kucuk, S. Kawaguchi, Z. Ogumi, T. Abe
   Journal of Electroanalytical Chemistry, 895, 115508 (2021). [RISING]
6. In Situ Observation at the Surface of Zinc in Alkaline Solution under Pulsed Current by Holographic Interferometry
   I. Arise, Y. Fukunaka, F. R. McLarnon, T. Abe
   Journal of The Electrochemical Society, 168, 080509 (2021).
7. Synchronized Operando Analysis of Graphite Negative Electrode of Li-Ion Battery
   H. Fujimoto, M. Murakami, T. Yamanaka, K. Shimoda, H. Kiuchi, Z. Ogumi, Takeshi Abe
   Journal of The Electrochemical Society, 168, 080508 (2021). [RISING]
8. Atomic-level nature of solid/liquid interface for energy conversion revealed by frequency modulation atomic force microscopy
   T. Minato, K. Umeda, K. Kobayashi, Y. Araki, H. Konishi, Z. Ogumi, T. Abe, H. Onishi, H. Yamada
   Japanese Journal of Applied Physics, 60, SE0806 (2021). [RISING]
9. Electrochemical, Thermal, and Structural Features of BaF2–SnF2 Fluoride-Ion Electrolytes
   K. Mori, A. Mineshige, T. Emoto, M. Sugiura, T. Saito, K. Namba, T. Otomo, T. Abe, T. Fukunaga
   The Journal of Physical Chemistry, 125, 12568–12577 (2021). [RISING]
10. Fluoride Ion-Selective Electrode for Organic Solutions
    Y. Yokoyama, K. Kano, Y. Kondo, Y. Miyahara, K. Miyazaki, T. Abe
    Analytical Chemistry, 93, 15058-15062 (2021).
11. Complementary Actions of Tungsten Oxides and Carbon to Catalyze the Redox Reaction of VO₂⁺/VO²⁺ in Vanadium Redox Flow Batteries
    K. Kimura, Y. Yokoyama, Y. Kondo, Y. Miyahara, T. Abe, K. Miyazaki
    ChemElectroChem, 8, 3695 (2021).
12. Stabilizing the Nanosurface of LiNiO₂ Electrodes by Varying the Electrolyte Concentration: Correlation with Initial Electrochemical Behaviors for Use in Aqueous Li-Ion Batteries
    C. Lee, Y. Yokoyama, Y. Kondo, Y. Miyahara, T. Abe, K. Miyazaki
    ACS Applied Materials & Interfaces, 13, 44284 (2021).
13. Relation between Mixing Processes and Properties of Lithium-ion battery Electrode-slurry
    S. Katakura, M. Takeno, K. Miyazaki, T. Abe, T. Fukutsuka
    Electrochemistry, 89(6), 585-589 (2021).
14. Electrochemical lithiation/delithiation of ZnO in 3D structured electrodes: Elucidating the mechanism and the solid electrolyte interphase formation
    J. J. A. Kreissl, J. Petit, R. Oppermann, P. Cop, T. Gerber, M. Joos, M. Abert, J. Tübke, K. Miyazaki, T. Abe, D. Schröder
    ACS Applied Materials & Interfaces, 13, 35625-35638 (2021).
15. Alkali-Rich Antiperovskite M3FCh (M = Li, Na; Ch = S, Se, Te): The Role of Anions in Phase Stability and Ionic Transport
    S. Fujii, S. Gao, C. Tassel, T. Zhu, T. Broux, K. Okada, Y. Miyahara, A. Kuwabara, H. Kageyama
    Journal of the American Chemical Society, 143(28) 10668-10675 (2021).
16. Sodium/Lithium-Ion Transfer Reaction at the Interface between Low Crystallized Carbon Nanosphere and Organic Electrolytes
    Y. Kondo, T. Fukutsuka, Y. Yokoyama, Y. Miyahara, K. Miyazaki, T. Abe
    ACS Omega, 6, 18737 (2021).
17. Alkali Metal Ion Insertion and Extraction on Non-graphitizable Carbon with Closed Pore Structures
    S. Tsujimoto, K. Kondo, Y. Yokoyama, Y. Miyahara, K. Miyazaki, T. Abe
    Journal of the Electrochemical Society, 168, 070508 (2021).
18. Molecular Structural Influence of Glymes on Co-Intercalation Behavior of Solvated Li⁺ in Graphite Electrodes
    A. Inoo, T. Fukutsuka, Y. Miyahara, K. Kondo, Y. Yokoyama, K. Miyazaki, T. Abe
    Journal of the Electrochemical Society, 168, 060525 (2021).
19. Cathode-Electrolyte-Interphase Film Formation on a LiNiO₂ Surface in Conventional Aqueous Electrolytes: Simple Method to Improve the Electrochemical Performance of LiNiO₂ Electrodes for Use in Aqueous Li-ion Batteries
    C. Lee, Y. Yokoyama, K. Kondo, Y. Miyahara, T. Abe, K. Miyazaki
    Advanced Energy Materials, 11, 2100756 (2021).
20. Electrochemical properties of surface-modified hard carbon electrodes for lithium-ion batteries
    R. N. Nasara, W. Ma, S. Tsujimoto, Y. Inoue, Y. Yokoyama, Y. Kondo, K. Miyazaki, Y. Miyahara, T. Fukutsuka, S. Lin, T. Abe
    Electrochimica Acta, 379, 138175 (2021).
21. Operando Analysis of Graphite Intercalation Compounds with Fluoride-Containing Polyatomic Anions in Aqueous Solutions
    Y. Ito, Y. Miyahara, Y. Yokoayama, Y. Yokoayama, Y. Kondo, T. Abe, K. Miyazaki
    Materials Advances, 2, 2310-2317 (2021).
22. Kinetic properties of sodium-ion transfer at the interface between graphitic materials and organic electrolyte solutions
    Y. Kondo, T. Fukutsuka, Y. Yokoyama, Y. Miyahara, K. Miyazaki, T. Abe
    Journal of Applied Electrochemistry, 51, 329-638 (2021).
23. Influence of concentrations of LiNO₃ aqueous electrolytes on initial electrochemical properties of LiNiO₂ electrodes
    C. Lee, Y. Yokoyama, K. Kondo, Y. Miyahara, K. Miyazaki, T. Abe
    Chemistry Letters, 50, 1071-1074 (2021).
24. Electrochemical Surface Analysis of LiMn₂O₄ Thin-film Electrodes in LiPF₆/Propylene Carbonate at Room and Elevated Temperatures
    J. Inamoto, T. Fukutsuka, K. Miyazaki, T. Abe
    Electrochemistry, 89, 19-24 (2021).
25. Assessing Reaction Mechanisms of Graphite Negative Electrodes Based on Operando Synchrotron Radiation Diffraction Data
    Hiroyuki Fujimoto, Hisao Kiuchi, Shigeharu Takagi, Keiji Shimoda, Ken-ichi Okazaki, Zempachi Ogumi, Takeshi Abe [RISING]
    Journal of The Electrochemical Society, 168, 040509 (2021).
26. Electrochemical behavior of CuF₂ as reversible cathode in an organic liquid electrolyte for room-temperature fluoride-shuttle batteries
    Asuman Celik-Kucuk, Takeshi Abe [RISING]
    Journal of Power Sources, 496, 229828 (2021).
27. Lactone-Based Liquid Electrolytes for Fluoride Shuttle Batteries
    Mitsuo Kawasaki, Ken-Ichi Morigaki, Gentaro Kano, Hirofumi Nakamoto, Reiji Takekawa, Junichi Kawamura, Taketoshi Minato, Takeshi Abe, Zempachi Ogumi [RISING]
    Journal of the Electrochemical Society, 168(1), 010529 (2021).
28. Nanoscale Defluorination Mechanism and Solid Electrolyte Interphase of a MgF₂ Anode in Fluoride-Shuttle Batteries
    Shunsuke Kobayashi, Hirofumi Nakamoto, Daisaku Yokoe, Akihide Kuwabara, Takeshi Abe, Yuichi Ikuhara [RISING]
    ACS Applied Energy Materials, 4(1), 996-1003 (2021).
29. Low-Cost Fluoride Source for Organic Liquid Electrolyte-Based Fluoride Shuttle Battery
    Asuman Celik Kucuk, Toshiro Yamanaka, Yuko Yokoyama, Takeshi Abe [RISING]
    Journal of The Electrochemical Society, 168, 010501 (2021).

2020年

1. Fluoride shuttle batteries: On the performance of the BiF₃ electrode in organic liquid electrolytes containing a mixture of lithium bis(oxalato)borate and triphenylboroxin
   Asuman Celik Kucuk, Toshiro Yamanaka, Takeshi Abe [RISING]
   Solid State Ionics, 357, 115499 (2020).
2. Borolan-2-yl involving anion acceptors for organic liquid electrolyte-based fluoride shuttle batteries
   Asuman Celik Kucuk, Takeshi Abe [RISING]
   Journal of Fluorine Chemistry, 240, 109672 (2020).
3. Using siloxane-based liquid electrolytes with high stability for fluoride shuttle batteries
   Asuman Celik Kucuk, Toshiro Yamanaka, Takeshi Abe [RISING]
   Journal of Materials Chemistry A, 8, 22134-22142 (2020).
4. Mechanism of the loss of capacity of LiNiO₂ electrodes for use in aqueous Li-ion batteries: Unveiling a fundamental cause of deterioration in an aqueous electrolyte through in situ Raman observation
   C. Lee, Y. Yokoyama, Y. Kondo, Y. Miyahara, T. Abe, K. Miyazaki
   ACS Applied Materials & Interfaces, 12, 56076-56085 (2020).
5. Reproducible and Stable Cycling Performance Data on Secondary Zinc-Oxygen Batteries
   S. Dongmo, J.J.A. Kreissl, K. Miyazaki, T. Abe, T.-H. You, C.-C. Hu, D. Schröder
   Scientific Data, 7, 395 (2020).
6. What insertion species is electrochemically intercalated into the LiNiO₂ electrode in aqueous solutions?
   C. Lee, Y. Yokoyama, Y. Kondo, Y. Miyahara, K. Miyazaki, T. Abe
   Journal of Power Sources, 477, 229036 (2020).
7. Dual-Site Catalysis of Fe-Incorporated Oxychlorides as Oxygen Evolution Electrocatalysts
   Y. Miyahara, T. Fukutsuka, T. Abe, K. Miyazaki
   Chemistry of Materials, 32, 8195-8202 (2020).
8. Evolution of Fluoride Shuttle Battery Reactions of BiF₃ Microparticles in a CsF/LiBOB/Tetraglyme Electrolyte: Dependence on Structure, Size, and Shape
   T. Yamanaka, A. Celik Kucuk, Z. Ogumi, T. Abe [RISING]
   ACS Applied Energy Materials, 3(9), 9390-9400 (2020).
9. Study on the analysis of the current-potential curve of RDE in electrocatalytic reactions
   (電極触媒反応のRDEの電流－電圧曲線の解析法に関する一考察) [in Japanese]
   Y. Yokoyama, K. Miyazaki, T. Abe, K. Kano
   Review of Polarography, 66, 77-84 (2020).
10. Operando Observations of Reversible α-BiF₃ Conversion in Liquid Electrolyte by Synchrotron Radiation Diffraction and ⁷Li Nuclear Magnetic Resonance
    M. Kawasaki, H. Kiuchi, K. Shimoda, G. Kano, H. Fujimoto, Z. Ogumi T. Abe [RISING]
    Journal of Electrochemical Society, 167(12), 120518 (2020).
11. Surface-Modified Li₄Ti₅O₁₂ in Highly Concentrated Aqueous Solutions for Use in Aqueous Rechargeable Lithium Batteries
    S. Sakai, I. Yamada, Y. Miyahara, Y. Kondo, Y. Yokoayama, T. Abe, K. Miyazaki
    Journal of the Electrochemical Society, 167, 120512 (2020).
12. Structural and Electrochemical Properties of Tysonite Ce_0.95A_0.05F_2.95 (A = Mg, Ca, Sr, and Ba): Fast-Fluoride-Ion-Conducting Solid Electrolytes
    K. Mori, Y. Morita, T. Saito, T. Kamiyama, T. Otomo, T. Abe, T. Fukunaga [RISING]
    The Journal of Physical Chemistry C, 124(34), 18452-18461 (2020).
13. Charge-transfer kinetics of the solid-electrolyte interphase on Li₄Ti₅O₁₂ thin-film electrodes
    R. N. Nasara, W. Ma, Y. Kondo, K. Miyazaki, Y. Miyahara, T. Fukutsuka, C. Lin, S. Lin, T. Abe
    ChemSusChem, 13, 4041-4050 (2020).
14. X‐Ray Total Scattering of Electrolytes in Liquid‐Based Fluoride Shuttle Battery: Electrolyte Composition Dependence of the Low‐Q Peak
    Y. Takabayashi, K. Kimura, S. Kawauchi, H. Nakamoto, H. Konishi, A. Celik Kucuk, T. Minato, T. Nakatani, H. Kiuchi, S. Fujinami, R. Takekawa, T. Abe, K. Hayashi [RISING]
    Physica Status Solidi B, 257(7), 2000202 (2020).
15. Effect of anion acceptor added to the electrolyte on the electrochemical performance of bismuth(III) fluoride in a fluoride shuttle battery
    H. Konishi, R. Takekawa, T. Minato, Z. Ogumi, T. Abe [RISING]
    Chemical Physics Letters, 755, 137785 (2020).
16. Sequential delithiation behavior and structural rearrangement of a nanoscale composite-structured Li_1.2Ni_0.2Mn_0.6O₂ during charge–discharge cycles
    K. Shimoda, K. Yazawa, T. Matsunaga, M. Murakami, K. Yamanaka, T. Ohta, E. Matsubara, Z. Ogumi T. Abe [RISING]
    Scientific Reports, 10, 10048 (2020).
17. Reversible Electrochemical Reaction of a Fluoride Shuttle Battery with a Bismuth(III) Fluoride Electrode and Electrolyte Containing Triphenylboroxine as an Anion Acceptor
    H. Konishi, T. Minato, T. Abe Z. Ogumi [RISING]
    ChemistrySelect, 5, 6237-6241 (2020).
18. Effect of Electrolyte Additives on Kinetic Parameters of Lithium-ion Transfer Reactions at Electrolyte/Graphite Interface
    A. Inoo, T. Fukutsuka, Y. Miyahara, Y. Kondo, Y. Yokoyama, K. Miyazaki, T. Abe
    Electrochemistry, 88, 365-368 (2020).
19. Concentrated Sodium Bis(fluorosulfonyl)amide Aqueous Electrolyte Solutions for Electric Double-layer Capacitors
    Y. Kondo, K. Miyazaki, Y. Yokoyama, Y. Miyahara, T. Fukutsuka, T. Abe
    Electrochemistry, 88, 91-93 (2020).
20. A new Bi_0.7Fe_1.3O_1.5F_1.7 phase: Crystal structure, magnetic properties, and cathode performance in fluoride-ion batteries
    T. Takami, T. Saito, T. Kamiyama, K. Kawahara, T. Fukunaga, T. Abe [RISING]
    APL Materials, 8, 051103 (2020). [selected as the “Featured” and “Science Highlight” article]
21. Reactivity of the electrolyte anion acceptor: An important factor in achieving high electrochemical performance of a lead (II) fluoride electrode in a fluoride shuttle battery
    H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
    Journal of Electroanalytical Chemistry, 871, 114103 (2020).
22. Lithium‐Ion Transfer at Cathode‐Electrolyte Interface in Diluted Electrolytes Using Electrochemical Impedance Spectroscopy
    T. Ohashi, K. Okazaki, T. Fukunaga, Z. Ogumi, T. Abe [RISING]
    ChemElectroChem, 7(7), 1644-1651 (2020).
23. Bifunctional oxygen electrodes with highly step-enriched surface of Fe–Nx containing carbonaceous thin film
    J. Maruyama, S. Maruyama, T. Fukuhara, H. Mizuhata, S. Takenaka, A. Yoshida, K. Miyazaki
    Journal of the Electrochemical Society, 167, 060504 (2020).
24. Crystal structure, ionic conductivity, and Li-ion diffusion pathway in a La-Li-Co-O system
    T. Takami, Y. Ishikawa, M. Yonemura, T. Fukunaga, E. Matsubara, T. Abe [RISING]
    Journal of the Ceramic Society of Japan, 128(8), 453-456 (2020).
25. Solvated Lithium Ion Intercalation Behavior of Graphitized Carbon Nanospheres
    S. Maruyama, T. Fukutsuka, K. Miyazaki, T. Abe
    Electrochemistry, 88, 79-82 (2020).
26. Lithium-ion Transfer Kinetics through Solid Electrolyte Interphase on Graphite Electrodes
    A. Inoo, T. Fukutsuka, Y. Miyahara, K. Miyazaki, T. Abe
    Electrochemistry, 88, 69-73 (2020).
27. In Situ Local pH Measurements with Hydrated Iridium Oxide Ring Electrodes in Neutral pH Aqueous Solutions
    Y. Yokoyama, K. Miyazaki, Y. Kondo, Y. Miyahara, T. Fukutsuka, T. Abe
    Chemistry Letters, 49, 195-198 (2020).
28. Implications of Testing a Zinc-Oxygen Battery with Zinc Foil Anode Revealed by Operando Gas Analysis
    S. Dongmo, D. Stock, J. Kreissl, M. Gross, S. Weixler, M. Hagen, K. Miyazaki, T. Abe, D. Schröder
    ACS Omega, 5, 626-633 (2020).
29. Experimental Visualization of Interstitialcy Diffusion Pathways in Fast-Fluoride-Ion-Conducting Solid Electrolyte Ba_0.6La_0.4F_2.4
    K. Mori, A. Mineshige, T. Saito, M. Sugiura, Y. Ishikawa, F. Fujisaki, K. Namba, T. Kamiyama, T. Otomo, T. Abe, T. Fukunaga [RISING]
    ACS Applied Energy Materials, 3(3), 2873-2880 (2020).
30. Analysis of Cathode Reactions of Lithium Ion Cells Using Dynamic Electrochemical Impedance
    T. Ohashi, T. Abe, T. Fukunaga, Z. Ogumi, E. Matsubara [RISING]
    Journal of the Electrochemical Society, 167, 020502 (2020).

2019年

1. Reactivity and Mechanisms in Fluoride Shuttle Battery Reactions: Difference between Orthorhombic and Cubic BiF₃ Single Microparticles
   T. Yamanaka, K. Okazaki, Z. Ogumi, T. Abe [RISING]
   ACS Applied Energy Materials, 2(12), 8801-8808 (2019).
2. Nanoscopic combination of edge and flat planes in active site for oxygen reduction and evolution
   J. Maruyama, S. Maruyama, T. Fukuhara, Y. Takao, K. Miyazaki
   European Journals of Inorganic Chemistry, 4117-4121 (2019).
3. In situ Measurement of Local pH at Working Electrodes in Neutral pH Solutions by the Rotating Ring-Disk Electrode Technique
   Y. Yokoyama, K. Miyazaki, Y. Miyahara, T. Fukutsuka, T. Abe
   ChemElectroChem, 6, 4750-4756 (2019).
4. Improved electrochemical performances in a bismuth fluoride electrode prepared using a high energy ball mill with carbon for fluoride shuttle batteries
   H. Konishi, A. Celik Kucuk, T. Minato, T. Abe, Z. Ogumi [RISING]
   Journal of Electroanalytical Chemistry, 839, 173-176 (2019).
5. In situ Raman spectroscopic analysis of solvent co-intercalation behavior into a solid electrolyte interphase-covered graphite electrode
   S. Maruyama, T. Fukutsuka, K. Miyazaki, T. Abe
   Journal of Applied Electrochemistry, 49, 639-646 (2019).
6. Sodium-ion intercalation behavior of graphitized carbon nanospheres covered with basal plane
   Y. Kondo, Y. Miyahara, T. Fukutsuka, K. Miyazaki, T. Abe
   Chemistry Letters, 48, 799-801 (2019).
7. Electrochemical intercalation of bis(fluorosulfonyl)amide anions into graphite from aqueous solutions
   Y. Kondo, Y. Miyahara, T. Fukutsuka, K. Miyazaki, T. Abe
   Electrochemistry Communications, 100, 26-29 (2019).
8. Investigation of Electrochemical Sodium-Ion Intercalation Behavior into Graphite-Based Electrodes
   Y. Kondo, T. Fukutsuka, K. Miyazaki, Y. Miyahara, T. Abe
   Journal of the Electrochemical Society, 166, A5323-A5327 (2019).
9. Evolution of Reactions of a Fluoride Shuttle Battery at the Surfaces of BiF₃ Microclusters Studied by In Situ Raman Microscopy
   T. Yamanaka, K. Okazaki, T. Abe, K. Nishio, Z. Ogumi [RISING]
   ChemSusChem, 12, 527-534 (2019).

2018年

1. Triphenylboroxine and Triphenylborane as Anion Acceptors for Electrolyte in Fluoride Shuttle Batteries
   H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
   Chemistry Letters, 47, 1346-1349 (2018).
2. Improvement of cycling performance in bismuth fluoride electrodes by controlling electrolyte composition in fluoride shuttle batteries
   H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
   Journal of Applied Electrochemistry, 48, 1205-1211 (2018).
3. Origin of the Electrochemical Stability of Aqueous Concentrated Electrolyte Solutions
   Y. Yokoyama, T. Fukutsuka, K. Miyazaki, T. Abe
   Journal of the Electrochemical Society, 165, A3299-A3303 (2018).
4. Characterization of the interface between LiMn₂O₄ thin-film electrode and LiBOB-based electrolyte solution by redox reaction of ferrocene
   J. Inamoto, T. Fukutsuka, K. Miyazaki, T. Abe
   Electrochemistry, 86, 254-259 (2018).
5. Electrochemical properties of lead fluoride electrode in fluoride shuttle battery
   H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
   Journal of Electroanalytical Chemistry, 826, 60-64 (2018).
6. Towards zinc-oxygen batteries with enhanced cycling stability: The benefit of anion-exchange ionomer for zinc sponge anodes
   D. Stock, S. Dongmo, K. Miyazaki, T. Abe, J. Janek, D. Schroder
   Journal of Power Sources, 395, 195-204 (2018).
7. Diffusion of Li-deficient phases in large LiFePO4 single crystals during chemical delithiation dagger
   T. Yamanaka, T. Abe, K. Nishio, Z. Ogumi [RISING]
   Journal of Materials Chemistry A, 6, 11005-11011 (2018).
8. Electrochemical Stabilization of Self-Extinguishing Electrolyte Solutions with Trimethyl Phosphate by Adding Potassium Salts
   S. Tsubouchi, S. Suzuki, K. Nishimura, T. Okumura, T. Abe
   Journal of Physical Chemistry C, 122, 12657-12664 (2018).
9. Electrochemical Behavior of Graphitized Carbon Nanospheres in a Propylene Carbonate-Based Electrolyte Solution
   S. Maruyama, T. Fukutsuka, K. Miyazaki, Y. Abe, N. Yoshizawa, T. Abe
   Journal of the Electrochemical Society, 165, A2247-A2254 (2018).
10. Lithium-Ion Intercalation by Calcium-Ion Addition in Propylene Carbonate-Trimethyl Phosphate Electrolyte Solution
    S. Takeuchi, T. Fukutsuka, K. Miyazaki, T. Abe
    Journal of the Electrochemical Society, 165, A349-A354 (2018).
11. Effect of Lewis Acids on Graphite-Electrode Properties in EC-Based Electrolyte Solutions with Organophosphorus Compounds
    S. Tsubouchi, S. Suzuki, K. Nishimura, T. Okumura, T. Abe
    Journal of the Electrochemical Society, 165, A680-A687 (2018).
12. Local Current Distributions on Electrodes Covered with Anion-exchange Films
    A. Ikezawa, K. Miyazaki, T. Fukutsuka, T. Abe
    Chemistry Letters, 47, 171-174 (2018).
13. Lithium-ion intercalation and deintercalation behaviors of graphitized carbon nanospheres
    S. Maruyama, T. Fukutsuka, K. Miyazaki, Y. Abe, N. Yoshizawa, T. Abe
    Journal of Materials Chemistry A, 6, 1128-1137 (2018).
14. Observation of the intercalation of dimethyl sulfoxide-solvated lithium ion into graphite and decomposition of the ternary graphite intercalation compound using in situ Raman spectroscopy
    S. Maruyama, T. Fukutsuka, K. Miyazaki. T. Abe
    Electrochimica Acta, 265, 41-46 (2018).

2017年

1. Surface and interface sciences of Li-ion batteries -Research progress in electrode–electrolyte interface-
   T. Minato, T. Abe [RISING]
   Progress in Surface Science, 92, 240-280 (2017).
2. In Situ AFM Observation of Surface Morphology of Highly Oriented Pyrolytic Graphite in Propylene Carbonate- Based Electrolyte Solutions Containing Lithium and Bivalent Cations
   T. Fukutsuka, R. Kokumai, HY. Song, S. Takeuchi, K. Miyazaki, T. Abe
   Journal of the Electrochemical Society, 164, A48-A53 (2017).
3. Modification of the Solid Electrolyte Interphase by Chronoamperometric Pretreatment and Its Effect on the Concentration Change of Electrolyte Salt in Lithium Ion Batteries Studied by In Situ Microprobe Raman Spectroscopy
   T. Yamanaka, H. Nakagawa, S. Tsubouchi, Y. Domi, T. Doi, T. Abe, Z. Ogumi [RISING]
   Journal of the Electrochemical Society, 164, A2355-A2359 (2017).
4. Investigation of Electronic Resistance in Lithium-Ion Batteries by AC Impedance Spectroscopy
   M. Takeno, T. Fukutsuka, K. Miyazaki, T. Abe
   Journal of the Electrochemical Society, 164, A3862-A3867 (2017).
5. Electrochemical Performance of a Bismuth Fluoride Electrode in a Reserve-Type Fluoride Shuttle Battery
   H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
   Journal of the Electrochemical Society, 164, A3702-A3708 (2017).
6. Electrochemical Reaction Mechanism for Bi1-xBaxF3-x (x=0, 0.1, 0.2, and 0.4) Electrodes in Lithium-Ion Batteries
   H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
   ChemistrySelect, 2, 6399-6406 (2017).
7. Comparative study of approaches to achieve improved cyclability and high capacity in a silicon suboxide film anode for lithium-ion batteries
   H. Takezawa, S. Ito, H Yoshizawa, T. Abe
   Electrochimica Acta, 245, 1005-1009 (2017).
8. Mechanism of Accelerated Zinc Electrodeposition in Confined Nanopores, Revealed by X-ray Absorption Fine Structure Spectroscopy
   A. Munoz-Noval, K. Fukami, A. Koyama, T. Kuruma, A. Kitada, K. Murase, T. Abe, T. Sakka, S. Hayakawa
   Journal of Physical Chemistry C, 121, 18047-18056 (2017).
9. Electrochemical Properties of a SiOx Film Anode Pre-lithiated by Evaporation of Metallic Li in Li-ion Batteries
   H. Takezawa, S. Ito, H. Yoshizawa, T. Abe
   Chemistry Letters, 46, 1365-1367 (2017).
10. Interface structure between tetraglyme and graphite
    T. Minato, Y. Araki, K. Umeda, T. Yamanaka, K. Okazaki, H. Onishi, T. Abe, Z. Ogumi [RISING]
    Journal of Chemical Physics, 147, 124701 (2017).
11. Correlations of concentration changes of electrolyte salt with resistance and capacitance at the surface of a graphite electrode in a lithium ion battery studied by in situ microprobe Raman spectroscopy
    T. Yamanaka, H. Nakagawa, S. Tsubouchi, Y. Domi, T. Doi, T. Abe, Z. Ogumi [RISING]
    Electrochimica Acta, 251, 301-306 (2017).
12. Difference of rate performance between discharge and charge reactions for bismuth fluoride electrode in lithium-ion battery
    H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
    Journal of Electroanalytical Chemistry, 806, 82-87 (2017).
13. Direct measurements of local current distributions on electrodes covered with thin liquid electrolyte films
    A. Ikezawa, K. Miyazaki, T. Fukutsuka, T. Abe
    Electrochemistry Communications, 84, 53-56 (2017).
14. Insight into the state of the ZrO2 coating on a LiCoO2 thin-film electrode using the ferrocene redox reaction”
    J. Inamoto, T. Fukutsuka, K. Miyazaki, T. Abe
    Journal of the Applied Electrochemistry, 47, 1203-1211 (2017).
15. Acceptor-type hydroxide graphite intercalation compounds electrochemically formed in high ionic strength solutions
    K. Miyazaki, A. Iizuka, K. Mikata, T. Fukutsuka, T. Abe
    Chemical Communications, 53, 10034-10037 (2017).
16. Influence of carbonaceous materials on electronic conduction in electrode-slurry
    M. Takeno, T. Fukutsuka, K. Miyazaki, T. Abe
    Carbon, 122, 202-207 (2017).
17. Investigation on Surface-Film Formation Behavior of LiMn2O4 Thin-Film Electrodes in LiClO4/Propylene Carbonate
    J. Inamoto, T. Fukutsuka, K. Miyazaki, T. Abe
    ChemistrySelect, 2, 2895-2900 (2017)
18. Development of New Electronic Conductivity Measurement Method for Lithium-ion Battery Electrode-slurry
    M. Takeno, T. Fukutsuka, K. Miyazaki, T. Abe
    Chemistry Letters, 46, 892-894 (2017).
19. Strontium Cobalt Oxychlorides: Enhanced Electrocatalysts for Oxygen Reduction and Evolution Reactions
    Y. Miyahara, K. Miyazaki, T. Fukutsuka, T. Abe
    Chemical Communications, 53, 2713-2716 (2017).
20. Investigation of the surface state of LiCoO2 thin-film electrodes using a redox reaction of ferrocene
    J. Inamoto, T. Fukutsuka, K. Miyazaki, T. Abe
    Journal of the Electrochemical Society, 164, A555-A559 (2017).
21. In-situ AFM Observation of Surface Morphology of Highly Oriented Pyrolytic Graphite in Propylene Carbonate-based Electrolyte Solutions Containing Lithium and Bivalent Cations
    T. Fukutsuka, R. Kokumai, H.-Y. Song, S. Takeuchi, K. Miyazaki, T. Abe
    Journal of the Electrochemical Society, 164, A48-A53 (2017).
22. In situ diagnosis of the electrolyte solution in a laminate lithium ion battery by using ultrafine multi-probe Raman spectroscopy
    T. Yamanaka, H. Nakagawa, S. Tsubouchi, Y. Domi, T. Doi, T.Abe, Z. Ogumi [RISING]
    Journal of Power Sources, 359, 435-440 (2017).
23. Dynamic manipulation of the local pH within a nanopore triggered by surface-induced phase transition
    A. Koyama, K. Fukami, Y. Imaoka, A. Kitada, T. Sakka, T. Abe, K. Murase, M. Kinoshita
    Physical Chemistry Chemical Physics, 19, 16323-16328 (2017).
24. Charge-Discharge Behavior of Bismuth in a Liquid Electrolyte for Rechargeable Batteries Based on a Fluoride Shuttle
    K. Okazaki, Y. Uchimoto, T. Abe, Z. Ogumi [RISING]
    ACS Energy Letters, 2, 1460-1464 (2017).
25. Cycling Fading Mechanism for a Bismuth Fluoride Electrode in a Lithium-Ion Battery
    H. Konishi, T. Minato, T. Abe, Z. Ogumi [RISING]
    ChemistrySelect, 2, 3504-3510 (2017).
26. In situ Raman spectroscopic studies on concentration change of electrolyte salt in a lithium ion model battery with closely faced graphite composite and LiCoO2 composite electrodes by using an ultrafine microprobe
    T. Yamanaka, H. Nakagawa, S. Tsubouchi, Y. Domi, T. Doi, T.Abe, Z. Ogumi [RISING]
    Electrochimica Acta, 234, 93-98 (2017).
27. In situ Raman spectroscopic studies on concentration change of ions in the electrolyte solution in separator regions in a lithium ion battery by using multi-microprobes
    T. Yamanaka, H. Nakagawa, S. Tsubouchi, Y. Domi, T. Doi, T.Abe, Z. Ogumi [RISING]
    Electrochemistry Communications, 77, 32-35 (2017).
28. In Situ Raman Spectroscopic Studies on Concentration of Electrolyte Salt in Lithium-Ion Batteries by Using Ultrafine Multifiber Probes
    T. Yamanaka, H. Nakagawa, S. Tsubouchi, Y. Domi, T. Doi, T.Abe, Z. Ogumi [RISING]
    ChemSusChem,10, 855-861 (2017).
29. Surface composition of a SiOx film anode cycled in carbonate electrolyte for Li-ion batteries
    H. Takezawa, S. Ito, H. Yoshizawa, T. Abe
    Electrochimica Acta, 229, 438-444 (2017).

2016年

1. In-situ Raman Investigation of Electrolyte Solutions in the Vicinity of Graphite Negative Electrodes
   H.-Y. Song, T. Fukutsuka, K. Miyazaki, T. Abe
   Physical Chemistry Chemical Physics, 18, 27486-27492 (2016).
2. Electrochemical Behavior of Spinel Lithium Titanate in Ionic Liquid/Water Bilayer Electrolyte
   T. Fukutsuka, H. Miwa, K. Miyazaki, T. Abe
   Journal of the Electrochemical Society, 163, A2497-A2500 (2016).
3. Solid Electrolyte Interphase Formation in Propylene Carbonate-based Electrolyte Solutions for Lithium-ion Batteries Based on the Lewis Basicity of the Co-solvent and Counter Anion
   H.-Y. Song, T. Fukutsuka, K. Miyazaki, T. Abe
   Journal of Applied Electrochemistry, 46, 1099–1107 (2016).
4. Influence of Surfactants as Additives to Electrolyte Solutions on Zinc Electrodeposition and Potential Oscillation Behavior
   K. Miyazaki, A. Nakata, Y-S. Lee, T. Fukutsuka, T. Abe
   Journal of Applied Electrochemistry, 46, 1067–1073 (2016).
5. Effect of the Addition of Bivalent Ions on Electrochemical Lithium-ion Intercalation at Graphite Electrodes
   S. Takeuchi, R. Kokumai, S. Nagata, T. Fukutsuka, K. Miyazaki, T. Abe
   Journal of the Electrochemical Society, 163, A1693-A1696 (2016).
6. Investigation of the Surface Film Forming Process on Nongraphitizable Carbon Electrodes by In-situ Atomic Force Microscopy
   H.-Y. Song, T. Fukutsuka, K. Miyazaki, T. Abe
   Electrochemistry, 84, 769-771 (2016).
7. Effects of Cyclic Ether Addition on Intercalation/De-Intercalation Reactions of Lithium Ion at Graphite in Mn-Ion-Containing Electrolyte Solutions
   Y. Domi, T. Doi, M. Ochida, T. Yamanaka, T. Abe, Z. Ogumi
   Journal of the Electrochemical Society, 163, A1607-A1611 (2016).
8. Suppression of Co-intercalation Reaction of Propylene Carbonate and Lithium Ion into Graphite Negative Electrode by Addition of Diglyme
   H.-Y. Song, T. Fukutsuka, K. Miyazaki, T. Abe
   Journal of the Electrochemical Society, 163, A1265-A1269 (2016)
9. Ion Transport in Organic Electrolyte Solution through the Pore Channels of Anodic Nanoporous Alumina Membranes
   T. Fukutsuka, K. Koyamada, S. Maruyama, K. Miyazaki, and Takeshi Abe
   Electrochimica Acta, 199, 380–387 (2016).
10. Enhanced Resistance to Oxidative Decomposition of Aqueous Electrolytes for Aqueous Lithium-ion Batteries
    K. Miyazaki, T. Shimada, S. Ito, Y. Yokoyama, T. Fukutsuka, T. Abe
    Chemical Communications, 52, 4979-4982 (2016).
11. Influence of Surface Orientation on Catalytic Activities of La0.8Sr0.2CoO3 for Oxygen Reduction and Evolution Reactions
    Y. Miyahara, K. Miyazaki, T. Fukutsuka, T. Abe
    ChemElectroChem, 3, 214–217 (2016).
12. Ultra-Fine Fiber Raman Probe with High Spatial Resolution and Fluorescence Noise Reduction
    T. Yamanaka, H. Nakagawa, M. Ochida, S. Tsubouchi, Y. Domi, T. Doi, T. Abe, Z. Ogumi
    Journal of Physical Chemistry C, 120, 2585–2591 (2016).
13. Electrochemical Intercalation of Bis(fluorosulfonyl)amide Anion into Graphite
    T. Fukustuka, F. Yamane, K. Miyazaki, T. Abe
    Journal of the Electrochemical Society, 163(3), A499-A503 (2016).
14. Electrochemical Properties of LiCoPO4-thin Film Electrodes in LiF-based Electrolyte Solution with Anion Receptors
    T. Fukutsuka, T. Nakagawa, K. Miyazaki, T. Abe
    Journal of Power Sources, 306, 753–757 (2016).

2015年

1. Hard Carbon Anodes for Na-Ion Batteries: Toward a Practical Use
   G. Hasegawa, K. Kanamori, N. Kannari, J. Ozaki, K. Nakanishi, T. Abe
   ChemElectroChem, 2, 1917-1920 (2015).
2. Penetration of Platinum Complex Anions into Porous Silicon: Anomalous Behavior Caused by Surface-Induced Phase Transition
   A. Koyama, K. Fukami, T. Sakka, T. Abe, A. Kitada, K. Murase, M. Kinoshita
   Journal of Physical Chemistry C, 119, 19105-19116 (2015).
3. High-Level Doping of Nitrogen, Phosphorus, and Sulfur into Activated Carbon Monoliths and Their Electrochemical Capacitances
   G. Hasegawa, T. Deguchi, K. Kanamori, Y. Kobayashi, H. Kageyama, T. Abe, K. Nakanishi
   Chemistry of Materials, 27, 4703-4712 (2015).
4. Impact of Electrolyte on Pseudocapacitance and Stability of Porous Titanium Nitride (TiN) Monolithic Electrode
   G. Hasegawa, A. Kitada, S. Kawasaki, K. Kanamori, K. Nakanishi, Y. Kobayashi, H. Kageyama, T. Abe
   Journal of the Electrochemical Society, 162, A77-A85 (2015).
5. Electrochemical Performances of Zinc Oxide Electrodes Coated with Layered Double Hydroxides in Alkaline Solutions
   Y-S. Lee, K. Miyazaki, T. Fukutsuka, T. Abe
   Chemistry Letters, 44, 1359-1361 (2015).
6. Effects of calcination condition on porous reduced titanium oxides and oxynitrides via preceramic polymer route
   G. Hasegawa, T. Sato, K. Kanamori, C. Sun, Y. Ren, Y. Kobayashi, H. Kageyama, T. Abe, K. Nakanishi
   Inorganic Chemistry, 54, 2802–2808 (2015).
7. Lithium-ion transfer at the interfaces between LiCoO2 and LiMn2O4 thin film electrodes and organic electrolytes
   I. Yamada, K. Miyazaki, T. Fukutsuka, Y. Iriyama, T. Abe, Z. Ogumi
   Journal of Power Sources, 294, 460-464 (2015).
8. Investigations of Electrochemically Active Regions in Bifunctional Air Electrodes Using Partially Immersed Platinum Electrodes
   A. Ikezawa, K. Miyazaki, T. Fukutsuka, T. Abe
   Journal of the Electrochemical Soceity, 162, A1646-A1653 (2015).
9. Hierarchically porous Li4Ti5O12 anode materials for Li- and Na-ion batteries: Effects of nano-architectural design and temperature dependence of rate capability
   G. Hasegawa, K. Kanamori, T. Kiyomura, H. Kurata, K. Nakanishi, T. Abe
   Advanced Energy Materials, 5, 1400730 (2015).

2014年

1. New Magnesium-ion Conductive Electrolyte Solution Based on Triglyme for Reversible Magnesium Metal Deposition and Dissolution at Ambient Temperature
   T. Fukutsuka, K. Asaka, A. Inoo, R. Yasui, K. Miyazaki, T. Abe, K. Nishio, Y. Uchimoto
   Chemistry Letters, 43, 1788-1790 (2014).
2. High energy density rechargeable magnesium battery using earth-abundant and non-toxic elements
   Y. Orikasa, T. Masese, Y. Koyama, T. Mori, M. Hattori, K. Yamamoto, T. Okado, Z-D. Huang, T. Minato, C. Tassel, J. Kim, Y. Kobayashi, T. Abe, H. Kageyama, Y. Uchimoto
   Scientific Reports, 4, 5622 (2014).
3. Kinetics of Lithium-Ion Transfer at the Interface between Li4Ti5O12 Thin Films and Organic Electrolytes
   Y. Ishihara, K. Miyazaki, T. Fukutsuka, T. Abe
   ECS Electrochemistry Letters, in press (2014).
4. Synthesis and electrochemical performance of hierarchically porous N-doped TiO2 for Li-ion batteries
   G. Hasegawa, T. Sato, K. Kanamori, K. Nakanishi, T. Abe
   New Journal of Chemistry, 38(4), 1380-1384 (2014).
5. In situ raman study of graphite negative-electrodes in electrolyte solution containing fluorinated phosphoric esters
   H. Nakagawa, Y. Domi, T. Doi, M. Ochida, S. Tsubouchi, T. Yamanaka, T. Abe, Z. Ogumi
   Journal of the Electrochemical Society, 161(4), A480-A485 (2014).
6. Catalytic Roles of Perovskite Oxides in Electrochemical Oxygen Reactions in Alkaline Media
   Y. Miyahara, K. Miyazaki, T. Fukutsuka, T. Abe
   Journal of the Electrochemical Society, 161(6), F694-F697 (2014).

◆解説など

1. マグネシウム金属二次電池用電解液の開発
   福塚友和，宮崎晃平，安部武志，内本喜晴
   月刊ファインケミカル, 43, 42-47 (2014).

2013年

1. Electrochemical Lithium Ion Intercalation into Graphite Electrode in Propylene Carbonate-Based Electrolytes with Dimethyl Carbonate and Calcium Salt
   S. Takeuchi, T. Fukutsuka, K. Miyazaki, T. Abe
   Journal of Power Sources, 238, 65–68 (2013).
2. Hierarchically Porous Monoliths of Oxygen-deficient Anatase TiO2–x with Electronic Conductivity
   A. Kitada, G. Hasegawa, Y. Kobayashi, K. Miyazaki, T. Abe, K. Kanamori, K. Nakanishi, H. Kageyama
   RSC Advances, 3, 7205-7208 (2013).
3. Fabrication of Step-Edge-Decorated Graphite Electrodes with Platinum and Their Electrocatalytic Activities
   K. Miyazaki, T. Fukutsuka, T. Abe, Z. Ogumi
   Chemistry Letters, 42(6), 606-608 (2013).
4. Effects of Electrolyte Additives on the Suppression of Mn Deposition on Edge Plane Graphite for Lithium-Ion Batteries
   M. Ochida,T. Doi, Y. Domi, S. Tsubouchi, H. Nakagawa, T. Yamanaka, T. Abe, Z. Ogumi
   Journal of the Electrochemical Society, 160(2) A410-A413 (2013).
5. In situ Raman Study on the Structural Degradation of a Graphite Composite Negative-electrode and the Influence of the Salt in the Electrolyte Solution
   H. Nakagawa, Y. Domi, T. Doi, M. Ochida, S. Tsubouchi, T. Yamanaka, T. Abe, Z. Ogumi
   Journal of Power Sources, 236, 138–144 (2013).
6. Electrochemical Preparation of a Lithium-Graphite-Intercalation Compound in a Dimethyl Sulfoxide-Based Electrolyte Containing Calcium Ions
   S. Takeuchi, T. Fukutsuka, K. Miyazaki, T. Abe
   Carbon, 57, 232–238 (2013).
7. Electrochemical properties of carbon nanofibers as the negative electrode in lithium-ion batteries
   S. Maruyama, G. Zhuang, H. Wang, T. Fukutsuka, K. Miyazaki, T. Abe, T. Doi, Z. Ogumi
   Tanso, 256, 52-56 (2013).
8. New Li2FeSiO4–carbon monoliths with controlled macropores: effects of pore properties on electrode performance
   G. Hasegawa, M. Sannohe, Y. Ishihara, K. Kanamori, K. Nakanishi, T. Abe
   Phys. Chem. Chem. Phys. 15, 8736-8743 (2013).
9. Spectroscopic Analysis of Surface Layers in Close Contact with Edge Plane Graphite Negative-Electrodes
   S. Tsubouchi, Y. Domi, T. Doi, M. Ochida, H. Nakagawa,T. Yamanaka, T. Abe, Z. Ogumi
   J. Electrochem. Soc., 160(4), A575-A580 (2013).
10. A simple method of electrochemical lithium intercalation within graphite from a propylene carbonate-based solution
    S-K. Jeong, H-Y. Song, S. Kim, T. Abe, W. Jeon, R-Z. Yin, Y. Kim
    Electrochemistry Communications, 31, 24-27 (2013).
11. Electrochemical AFM Study of Surface Films Formed on the HOPG Edge Plane in Propylene Carbonate-Based Electrolytes
    Y. Domi, T. Doi, T. Yamanaka, T. Abe, Z. Ogumi
    Journal of the Electrochemical Society, 160(4), A678-A683 (2013).
12. Hierarchically Porous Monoliths Based on N-Doped Reduced Titanium Oxides and Their Electric and Electrochemical Properties
    G. Hasegawa, T. Sato, K. Kanamori, K. Nakano, T. Yajima, Y. Kobayashi, H. Kageyama, T. Abe, K. Nakanishi
    Chemistry of Materials, 25, 3504-3512 (2013).
13. A superconcentrated ether electrolyte for fast-charging Li-ion batteries
    Y. Yamada, M. Yaegashi, T. Abe, A. Yamada
    Chemical Communications, 49, 11194-11196 (2013).
14. Structural insights into ion conduction of layered double hydroxides with various proportions of trivalent cations
    K. Miyazaki, Y. Asada, T. Fukutsuka, T. Abe, L.A. Bendersky
    Journal of Materials Chemistry A, 1, 14569-14576 (2013).

2012年

1. Influence of the carbon surface on cathode deposits in non-aqueous Li-O-2 batteries
   S. Nakanishi, F. Mizuno, K. Nobuhara, T. Abe, H. Iba
   Carbon, 50(13) 4794-4803 (2012).
2. Influences of metal oxides on carbon corrosion under imposed electrochemical potential conditions
   K. Miyazaki, M. Nose, T. Kinumoto, T. Abe, T. Fukutsuka, Z. Ogumi
   Carbon, 50(4), 1644-1649 (2012).
3. Effect of Graphite Orientation and Lithium Salt on Electronic Passivation of Highly Oriented Pyrolytic Graphite
   M. Tang, K. Miyazaki, T. Abe, J. Newman
   Journal of the Electrochemical Society, 159(5), A634-A641 (2012).
4. Electrochemical Raman study of edge plane graphite negative-electrodes in electrolytes containing trialkyl phosphoric ester
   H. Nakagawa, M. Ochida, Y. Domi, T. Doi, S. Tsubouchi, T. Yamanaka, T. Abe, Z. Ogumi
   Journal of Power Sources, 212, 148-153 (2012).
5. In situ Raman study on degradation of edge plane graphite negative-electrodes and effects of film-forming additives
   H. Nakagawa, Y. Domi, T. Doi, M. Ochida, S. Tsubouchi, T. Yamanaka, T. Abe, Z. Ogumi
   Journal of Power Sources, 206, 320-324 (2012).
6. Surface Modification of Graphitized Carbonaceous-Thin Film Electrodes with Silver for Enhancement of Interfacial Lithium-Ion Transfer
   T. Doi, T. Fukutsuka, K. Takeda, T. Abe, K. Miyazaki, Z. Ogumi
   Journal of Physical Chemistry C, 116(23), 12422-12425 (2012).
7. Suppression of Dendrite Formation of Zinc Electrodes by the Modification of Anion-Exchange Ionomer
   K. Miyazaki, Y. Lee, T. Fukutsuka, T. Abe
   Electrochemistry, 80(10) 725-727 (2012).
8. Effects of Addition of Layered Double Hydroxide to Air Electrodes for Metal-Air Batteries
   K. Miyazaki, K. Nishio, T. Abe, K. Suto, Y. Kotani, S. Nakanishi, Z. Ogumi
   Electrochemistry, 8(10) 728-730 (2012).
9. Enhancing Effect of Carbon Surface in the Non-Aqueous Li-O-2 Battery Cathode
   S. Nakanishi, F. Mizuno, T. Abe, H. Iba
   Electrochemistry, 80(10) 783-786 (2012).
10. Preparation and electrochemical properties of SiO2-non-graphitizable carbon composites as negative electrode materials for Li-ion batteries
    T. Doi, M. Tagashira, Y. Iriyama, T. Abe, Z.Ogumi
    Journal of Applied Electrochemistry, 42(2) 69-74 (2012).
11. Electrochemical Characterization of Single-Layer MnO2 Nanosheets as a High-Capacitance Pseudocapacitor Electrode
    K. Kai, Y. Kobayashi, Y. Yamada, K. Miyazaki, T. Abe, Y. Uchimoto, H. Kageyama
    Journal of Materials Chemistry, 22(29) 14691-14695 (2012).
12. Formation of “fuzzy” phases with high proton conductivities in the composites of polyphosphoric acid and metal oxide nanoparticles
    K. Miyazaki, Y. Kato, T. Matsui, S. Hayashi, Y. Iriyama, T. Fukutsuka, T. Abe, Z. Ogumi
    Physical Chemistry Chemical Physics, 14(31) 11135-11138 (2012).
13. Electrochemical Analysis of Lithium-Ion Transfer Reaction through the Interface between Ceramic Electrolyte and Ionic Liquids
    F. Sagane, T. Abe, Z. Ogumi
    Journal of the Electrochemical Society, 159(11) A1766-A1769 (2012).
14. Spectroscopic Characterization of Surface Films Formed on Edge Plane Graphite in Ethylene Carbonate-Based Electrolytes Containing Film-Forming Additives
    S. Tsubouchi, Y. Domi, T. Doi, M. Ochida, H. Nakagawa, T. Yamanaka, T. Abe, Z. Ogumi
    Journal of the Electrochemical Society, 159(11) A1786-A1790 (2012).
15. Electrochemical AFM Observation of the HOPG Edge Plane in Ethylene Carbonate-Based Electrolytes Containing Film-Forming Additives
    Y. Domi, M. Ochida, S. Tsubouchi, H. Nakagawa, T. Yamanaka, T. Doi, T. Abe, Z. Ogumi
    Journal of the Electrochemical Society, 159(8) A1292-A1297 (2012).
16. Influence of Manganese Dissolution on the Degradation of Surface Films on Edge Plane Graphite Negative-Electrodes in Lithium-Ion Batteries
    M. Ochida, Y. Domi, T. Doi, S. Tsubouchi, H. Nakagawa,T. Yamanaka, T. Abe, Z. Ogumi
    Journal of the Electrochemical Society, 159(7) A961-A966 (2012).

◆解説など

1. 固体高分子形燃料電池における炭素材料の劣化
   衣本太郎，宮崎晃平
   炭素 251, 18-25 (2012).
2. ポストリチウムイオン電池－多価イオン移動反応系を中心に－
   安部武志
   Electrochemistry, 80, 89-92 (2012).

2011年

1. In Situ AFM Study of Surface Film Formation on the Edge Plane of HOPG for Lithium-Ion Batteries
   Y. Domi, M. Ochida, S. Tsubouchi, H. Nakagawa, T. Yamanaka, T. Doi, T. Abe, Z. Ogumi
   Journal of Physical Chemistry C, 115(51) 25484-25489 (2011).
2. Facile Preparation of Monolithic LiFePO4/Carbon Composites with Well-Defined Macropores for a Lithium-Ion Battery
   G. Hasegawa,Y. Ishihara, K. Kanamori, K. Miyazaki, Y. Yamada, K. Nakanishi, T. Abe
   Chemistry of Materials, 23(23) 5208-5216 (2011).
3. Electrochemical properties of graphite electrode in propylene carbonate-based electrolytes containing lithium and calcium ions
   S. Takeuchi, K. Miyazaki, F. Sagane, T. Fukutsuka, S.-K. Jeong, T. Abe
   Electrochimica Acta, 56(28) 10450-10453 (2011).
4. Electrochemical oxidation of ethylene glycol on Pt-based catalysts in alkaline solutions and quantitative analysis of intermediate products
   K. Miyazaki, T. Matsumiya, T. Abe, H. Kurata, T. Fukutsuka, K. Kojima, Z. Ogumi
   Electrochimica Acta, 56(22) 7610-7614 (2011).
5. Single-step synthesis of nano-sized perovskite-type oxide/carbon nanotube composites and their electrocatalytic oxygen-reduction activities
   K. Miyazaki, K. Kawakita, T. Abe, T. Fukutsuka, K. Kojima, Z. Ogumi
   Journal of Materials Chemistry, 21(6) 1913-1917 (2011).

2010年

1. Kinetics of Electrochemical Insertion and Extraction of Lithium Ion at SiO
   Y. Yamada, Y. Iriyama, T. Abe, Z. Ogumi
   Journal of the Electrochemical Society, 157(1), A26-A30 (2010). [Highlighted in Interface]
2. Use of layered double hydroxides to improve the triple phase boundary in anion-exchange membrane fuel cells
   K. Miyazaki, T. Abe, K. Nishio, H. Nakanishi, Z. Ogumi
   Journal of Power Souces, 195(19), 6500-6503 (2010).
3. Sodium-ion transfer at the interface between ceramic and organic electrolytes
   F. Sagane, T. Abe, Z. Ogumi
   Journal of Power Souces, 195(21), 7466-7470 (2010).
4. TEM and Electron Tomography Imaging of Pt Particles Dispersed on Carbon Nanospheres
   N. Yoshizawa, Y. Soneda, H. Hatori, H. Ue, T. Abe
   Journal of Nano Research, 11, 119-124 (2010).
5. Lithium-ion Transfer at the Interface between Solid and Liquid Electrolytes under Applying DC Voltage
   F. Sagane, K. Miyazaki, T. Fukutsuka, Y. Iriyama, T. Abe, Z. Ogumi
   Chemistry Letters, 39(8), 826-827(2010).
6. Development and degradation of graphitic microtexture in carbon nanospheres under a morphologically restrained condition
   N. Yoshizawa, Y. Soneda, H. Hatori, H. Ue, T. Abe
   Materials Chemistry and Physics, 121(3), 419-424 (2010).
7. Electrochemical Lithium Intercalation into Graphite in Dimethyl Sulfoxide-Based Electrolytes: Effect of Solvation Structure of Lithium Ion
   Y. Yamada, Y. Takazawa, K. Miyazaki, T. Abe
   Journal of Physical Chemistry C, 114(26), 11680-11685 (2010).
8. Novel Graphitized Carbonaceous Materials for Use as a Highly Corrosion-Tolerant Catalyst Support in Polymer Electrolyte Fuel Cells
   K. Miyazaki, H. Shirakata, T. Abe, N. Yoshizawa, Z. Ogumi
   Fuel Cells, 10(6), 960-965 (2010).
9. Aminated perfluorosulfonic acid ionomers to improve the triple-phase boundary region in anion-exchange membrane fuel cells
   K. Miyazaki, N. Sugimura, K. Kawakita, T. Abe, K. Nishio, H. Nakanishi, M. Matsuoka, Z. Ogumi
   Journal of the Electrochemical Society, 157(11), A1153-A1157 (2010). [Highlighted in Interface]
10. Role of Edge Orientation in Kinetics of Electrochemical Intercalation of Lithium-Ion at Graphite
    Y. Yamada, K. Miyazaki, T. Abe
    Langmuir, 26(18), 14990-14994 (2010).
11. Ion-solvent interaction for lithium-ion transfer at the interface between carbonaceous thin-film electrode and electrolyte
    T. Fukutsuka, F. Sagane, K. Miyazaki, T. Abe, T. Toda, Y. Matsuo, Y. Sugie, Z. Ogumi
    Tanso, 245, 188-191 (2010).
12. Factors affecting the formation of carbon film on the stainless steels for the bipolar plate of polymer electrolyte fuel cells
    S. Miyano, Y. Matsuo, Y. Sugie, T. Fukutsuka
    Journal of Fuel Cell Science and Technology, in press (2010).

◆解説など

1. 各種気相析出法による炭素系薄膜材料の作製と機能デバイスへの応用
   大澤善美，川口雅之，福塚友和
   炭素 245, 211-221 (2010).

2009年

1. Concentration determination of oxygen nanobubbles in electrolyzed water
   K. Kikuchi, A. Ioka, T. Oku, Y. Tanaka, Y. Saihara, Z. Ogumi
   Journal of Colloid and Interface Science, 329(2), 306-309 (2009).
2. A novel all-solid-state thin-film-type lithium-ion battery with in situ prepared positive and negative electrode materials
   C. Yada, Y. Iriyama, T. Abe, K. Kikuchi, Z. Ogumi
   Electrochemistry Communications, 11(2), 413-416 (2009).
3. Ternary Sn-Sb-Co alloy film as new negative electrode for lithium-ion cells
   T. Tabuchi, N. Hochgatterer, Z. Ogumi, M. Winter
   Journal of Power Sources, 188(2), 552-557 (2009).
4. Effects of specific adsorption of copper (II) ion on charge transfer reaction at the thin film LiMn2O4 electrode/aqueous electrolyte interface
   N. Nakayama, I. Yamada, Y. Huang, T. Nozawa, Y. Iriyama, T. Abe, Z. Ogumi
   Electrochimica Acta, 54(12), 3428-3432 (2009).
5. Single-step synthesis of nanosized titanium-based oxide/carbon nanotube composites by electrospray deposition and their electrochemical properties
   T. Doi, Y. Miwa, Y. Iriyama, T. Abe, Z. Ogumi
   Journal of Physical Chemistry C, 113(18), 7719-7722 (2009).
6. Correlation between charge-discharge behavior of graphite and solvation structure of lithium-ion in propylene carbonate-containing electrolytes
   Y. Yamada, Y. Koyama, T. Abe, Z. Ogumi
   Journal of Physical Chemistry C, 113(20), 8948-8953 (2009).
7. High rate discharge performance and thermal stability of heat treated carbon nano beads (CNBs)
   A. Sano, M. Kurihara, T. Abe, Z. Ogumi
   Journal of the Electrochemical Society, 156(8), A682-A687 (2009).
8. Studies on lithium-ion diffusion in heat treated carbon nano beads (CNBs) by microelectrode
   A. Sano, M. Kurihara, T. Abe, Z. Ogumi
   Journal of the Electrochemical Society, 156(8), A639-A644 (2009).
9. Lactone formation on carbonaceous materials during electrochemical oxidation
   M. Nose, T. Kinumoto, H-S. Choo, K. Miyazaki, T. Abe, Z. Ogumi
   Chemistry Letters, 38(8), 788-789 (2009).
10. Surface reaction of beta-FeOOH film negative electrode for lithium-ion cells
    T. Tabuchi, Y. Katayama, T. Nukuda, Z. Ogumi
    Journal of Power Sources, 191(2), 636-639 (2009).
11. beta-FeOOH thin film as positive electrode for lithium-ion cells
    T. Tabuchi, Y. Katayama, T. Nukuda, Z. Ogumi
    Journal of Power Sources, 191(2), 640-643 (2009).
12. Kinetics of lithium-ion transfer at the interface between Li0.35La0.55TiO3 and binary electrolytes
    Y. Yamada, F. Sagane, Y. Iriyama, T. Abe, Z. Ogumi
    Journal of Physical Chemistry C, 113(32), 14528-14532 (2009).
13. Kinetics of lithium-ion transfer at the interface between graphite and liquid electrolytes: Effects of solvent and surface film
    Y. Yamada, Y. Iriyama, T. Abe, Z. Ogumi
    Langmuir, 25(21), 12766-12770 (2009).
14. Li+-Ion Transfer through the Interface between Li+-Ion Conductive Ceramic Electrolyte and Li+-Ion-Concentrated Propylene Carbonate Solution
    F. Sagane, T. Abe, Z. Ogumi
    Journal of Physical Chemistry C, 113(46), 20135-20138 (2009).
15. Electrochemical Oxidation of Highly Oriented Pyrolytic Graphite in Sulphuric Acid Solution under Potential Pulse Condition
    M. Nose, T. Kinumoto, H.S. Choo HS, K. Miyazaki, T. Abe, Z. Ogumi
    Fuel Cells, 9(3), 284-290 (2009).