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1
Anion Substitution at Apical Sites of Ruddlesden–Popper-typ..:
Yanchang Wang (185514) ; Kentaro Yamamoto (370507) ; Yoshihiro Tsujimoto (1625668)...
https://figshare.com/articles/journal_contribution/Anion_Substitution_at_Apical_Sites_of_Ruddlesden_Popper-type_Cathodes_toward_High_Power_Density_for_All-Solid-State_Fluoride-Ion_Batteries/17911990. , 2022
https://figshare.com/articles/journal_contribution/Anion_Substitution_at_Apical_Sites_of_Ruddlesden_Popper-type_Cathodes_toward_High_Power_Density_for_All-Solid-State_Fluoride-Ion_Batteries/17911990. , 2022
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2
Rate-Determining Process at Electrode/Electrolyte Interface..:
Datong Zhang (689375) ; Hiroyuki Nakano (8907674) ; Kentaro Yamamoto (370507)...
https://figshare.com/articles/journal_contribution/Rate-Determining_Process_at_Electrode_Electrolyte_Interfaces_for_All-Solid-State_Fluoride-Ion_Batteries/14818154. , 2021
https://figshare.com/articles/journal_contribution/Rate-Determining_Process_at_Electrode_Electrolyte_Interfaces_for_All-Solid-State_Fluoride-Ion_Batteries/14818154. , 2021
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3
Operando X‑ray Absorption Spectroscopic Study on the Influe..:
Chen Liu (75209) ; Tomoki Uchiyama (5065889) ; Noriyuki Nagata (5828183)...
https://figshare.com/articles/journal_contribution/_i_Operando_i_X_ray_Absorption_Spectroscopic_Study_on_the_Influence_of_Specific_Adsorption_of_the_Sulfo_Group_in_the_Perfluorosulfonic_Acid_Ionomer_on_the_Oxygen_Reduction_Reaction_Activity_of_the_Pt_C_Catalyst/13622956. , 2021
https://figshare.com/articles/journal_contribution/_i_Operando_i_X_ray_Absorption_Spectroscopic_Study_on_the_Influence_of_Specific_Adsorption_of_the_Sulfo_Group_in_the_Perfluorosulfonic_Acid_Ionomer_on_the_Oxygen_Reduction_Reaction_Activity_of_the_Pt_C_Catalyst/13622956. , 2021
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4
High Rate Capability from a Graphite Anode through Surface ..:
Seunghoon Yang (5440244) ; Kentaro Yamamoto (370507) ; Xiaohan Mei (10778143)...
https://figshare.com/articles/journal_contribution/High_Rate_Capability_from_a_Graphite_Anode_through_Surface_Modification_with_Lithium_Iodide_for_All-Solid-State_Batteries/17293911. , 2021
https://figshare.com/articles/journal_contribution/High_Rate_Capability_from_a_Graphite_Anode_through_Surface_Modification_with_Lithium_Iodide_for_All-Solid-State_Batteries/17293911. , 2021
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5
Cu–Pb Nanocomposite Cathode Material toward Room-Temperatur..:
Datong Zhang (689375) ; Takahiro Yoshinari (6060932) ; Kentaro Yamamoto (370507)...
https://figshare.com/articles/journal_contribution/Cu_Pb_Nanocomposite_Cathode_Material_toward_Room-Temperature_Cycling_for_All-Solid-State_Fluoride-Ion_Batteries/14377364. , 2021
https://figshare.com/articles/journal_contribution/Cu_Pb_Nanocomposite_Cathode_Material_toward_Room-Temperature_Cycling_for_All-Solid-State_Fluoride-Ion_Batteries/14377364. , 2021
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6
Investigation of the Suppression of Dendritic Lithium Growt..:
Masakuni Takahashi (9435803) ; Toshiki Watanabe (180336) ; Kentaro Yamamoto (370507)...
https://figshare.com/articles/journal_contribution/Investigation_of_the_Suppression_of_Dendritic_Lithium_Growth_with_a_Lithium-Iodide-Containing_Solid_Electrolyte/14785453. , 2021
https://figshare.com/articles/journal_contribution/Investigation_of_the_Suppression_of_Dendritic_Lithium_Growth_with_a_Lithium-Iodide-Containing_Solid_Electrolyte/14785453. , 2021
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7
High Ionic Conductivity of Liquid-Phase-Synthesized Li 3 PS..:
Kentaro Yamamoto (370507) ; Seunghoon Yang (5440244) ; Masakuni Takahashi (9435803)...
https://figshare.com/articles/journal_contribution/High_Ionic_Conductivity_of_Liquid-Phase-Synthesized_Li_sub_3_sub_PS_sub_4_sub_Solid_Electrolyte_Comparable_to_That_Obtained_via_Ball_Milling/13962650. , 2021
https://figshare.com/articles/journal_contribution/High_Ionic_Conductivity_of_Liquid-Phase-Synthesized_Li_sub_3_sub_PS_sub_4_sub_Solid_Electrolyte_Comparable_to_That_Obtained_via_Ball_Milling/13962650. , 2021
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8
Phase Transition Behavior of MgMn 2 O 4 Spinel Oxide Cathod..:
Feilure Tuerxun (8900810) ; Saeko Otani (10052733) ; Kentaro Yamamoto (370507)...
https://figshare.com/articles/journal_contribution/Phase_Transition_Behavior_of_MgMn_sub_2_sub_O_sub_4_sub_Spinel_Oxide_Cathode_during_Magnesium_Ion_Insertion/13665762. , 2021
https://figshare.com/articles/journal_contribution/Phase_Transition_Behavior_of_MgMn_sub_2_sub_O_sub_4_sub_Spinel_Oxide_Cathode_during_Magnesium_Ion_Insertion/13665762. , 2021
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9
Impact of the Composition of Alcohol/Water Dispersion on th..:
Xiao Gao (2734387) ; Kentaro Yamamoto (370507) ; Tomoyasu Hirai (1629367)...
https://figshare.com/articles/journal_contribution/Impact_of_the_Composition_of_Alcohol_Water_Dispersion_on_the_Proton_Transport_and_Morphology_of_Cast_Perfluorinated_Sulfonic_Acid_Ionomer_Thin_Films/14671375. , 1753
https://figshare.com/articles/journal_contribution/Impact_of_the_Composition_of_Alcohol_Water_Dispersion_on_the_Proton_Transport_and_Morphology_of_Cast_Perfluorinated_Sulfonic_Acid_Ionomer_Thin_Films/14671375. , 1753
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10
Quantitative Evaluation of the Activity of Low-Spin Tetrava..:
Yadan Ren (11481798) ; Tomoya Horiguchi (11481801) ; Tomoki Uchiyama (5065889)...
https://figshare.com/articles/journal_contribution/Quantitative_Evaluation_of_the_Activity_of_Low-Spin_Tetravalent_Nickel_Ion_Sites_for_the_Oxygen_Evolution_Reaction/16682169. , 1753
https://figshare.com/articles/journal_contribution/Quantitative_Evaluation_of_the_Activity_of_Low-Spin_Tetravalent_Nickel_Ion_Sites_for_the_Oxygen_Evolution_Reaction/16682169. , 1753