A Comparison of Crystal Structures and Electrode Performance between Na2FePO4F and Na2Fe0.5Mn0.5PO4F Synthesized by Solid-State Method for Rechargeable Na-Ion Batteries
暂无分享,去创建一个
Shinichi Komaba | Naoaki Yabuuchi | Izumi Nakai | S. Komaba | N. Yabuuchi | I. Nakai | Y. Kawabe | R. Okuyama | Masataka Kajiyama | Masataka Kajiyama | Tokuo Inamasu | Yoshiteru Kawabe | Norihito Fukuhara | Tokuo Inamasu | Ryoichi Okuyama | N. Fukuhara
[1] Jun-ichi Yamaki,et al. Liquid-phase synthesis of highly dispersed NaFeF3 particles and their electrochemical properties for sodium-ion batteries , 2011 .
[2] A. Yamada,et al. Comparative Kinetic Study of Olivine Li x MPO 4 ( M = Fe , Mn) , 2004 .
[3] K. Zaghib,et al. Characterization of Na-based phosphate as electrode materials for electrochemical cells , 2011 .
[4] Jean-Marie Tarascon,et al. Ionothermal Synthesis of Sodium-Based Fluorophosphate Cathode Materials , 2009 .
[5] Shinichi Komaba,et al. Synthesis and electrode performance of carbon coated Na2FePO4F for rechargeable Na batteries , 2011 .
[6] Jean-Marie Tarascon,et al. Na2Ti3O7: Lowest voltage ever reported oxide insertion electrode for sodium ion batteries , 2011 .
[7] Linda F. Nazar,et al. Crystal Structure and Electrochemical Properties of A2MPO4F Fluorophosphates (A = Na, Li; M = Fe, Mn, Co, Ni)† , 2010 .
[8] Fujio Izumi,et al. VESTA: a three-dimensional visualization system for electronic and structural analysis , 2008 .
[9] Kazuma Gotoh,et al. Electrochemical Na Insertion and Solid Electrolyte Interphase for Hard‐Carbon Electrodes and Application to Na‐Ion Batteries , 2011 .
[10] Linda F. Nazar,et al. Synthesis of nanocrystals and morphology control of hydrothermally prepared LiFePO4 , 2007 .