Ti-Based Compounds as Negative Electrode Materials 4.2.1. Electrolyte and Additive for Na Cells 4.1.3. Miscellaneous Na Insertion Materials as Positive Electrode Materials 4. Polyanionic Compounds with Other Transition Metals 3.4. Fluorophosphates, Carbophosphates, and Fluorosulfates with Fe(II) and Mn (II) 3.3.4. Pyrophosphates with Fe(II) and Mn(II) 3.3.3. Binary/Ternary Metal Oxides with Layered Structures 3.2. Other 3d Transition-Metal Oxides with Layered Structures 3.1.4. Iron- and Manganese-Based Layered Oxides 3.1.3. Classification of Layered Structures 3.1.2. Why Are Sodium Ions Important as Charge Carriers for Energy Storage? 3. Conclusions Author Information Corresponding Author Present Address Notes Biographies Acknowledgments ReferencesĬONTENTS 1.
Organic Compounds as Electrode Materials 6. Tin and Antimony as Alloy Electrode Materials 4.3.3. Background of Na Alloys and Compounds 4.3.2. Na Alloys and Other Sodiatable Compounds as Negative Electrodes 4.3.1. Research Development on Sodium-Ion Batteries Naoaki Yabuuchi,†,‡,§ Kei Kubota,†,‡ Mouad Dahbi,†,‡ and Shinichi Komaba*,†,‡ †ĭepartment of Applied Chemistry, Tokyo University of Science, 1-3 Kagurazaka, Shinjuku, Tokyo 162-8061, Japan Elements Strategy Initiative for Catalysts and Batteries (ESICB), Kyoto University, Katsura, Kyoto 615-8520, JapanĤ.3.
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