After an introduction to Na-ion batteries and their comparison with Li-ion batteries, the book provides an in-depth coverage of the development and performance of cathode and anode materials and their characterization by methods such as NMR spectroscopy and magnetic-resonance imaging. Solid and liquid electrolytes such as ceramics and ionic liquids are subsequently discussed in detail. Furthermore, the book gives an overview of commercial perspectives, upscaling, cost analysis, and safety issues of Na-ion batteries.
After an introduction to Na-ion batteries and their comparison with Li-ion batteries, the book provides an in-depth coverage of the development and performance of cathode and anode materials and their characterization by methods such as NMR spectroscopy and magnetic-resonance imaging. Solid and liquid electrolytes such as ceramics and ionic liquids are subsequently discussed in detail. Furthermore, the book gives an overview of commercial perspectives, upscaling, cost analysis, and safety issues of Na-ion batteries.
Maria-Magdalena Titirici is Chair of Sustainable Energy Materials, Imperial College London, UK, and a Chair in Emerging Sustainable Technologies with the Royal Academy of Engineering. Philipp Adelhelm is Professor for Physical Chemistry at the Humboldt University Berlin, Germany, and heads a joint research group on operando battery analysis at the Helmholtz-Zentrum Berlin für Materialien und Energie, Germany. Yong-Sheng Hu is Full Professor and Director of Key Laboratory for Renewable Energy, Chinese Academy of Sciences, and Founder of HiNa Battery, China.
Inhaltsangabe
INTRODUCTION Na-Ion Batteries Introduction and Electrochemistry Na- versus Li-Ion Batteries
ANODES Graphite Graphene and CNTs Hard Carbons Soft Carbons Alloys Conversion Anodes 2D Materials Organic Materials
CATHODES Layer Transition Metals Tunnel-Type Oxides Phosphates and Mixed Polyanions Prussian Blue Analogues High Voltage Cathodes Fe and Mn Based Cathodes for Na-Ion Batteries
ADVANCED CHARACTERIZATION OF NA-ION BATTERY ELECTRODES Advanced "in Operando" X-Ray Characterization Methods for Na-Ion Batteries Neutron and Muon Studies on Na Ion Battery Materials NMR and MRI Applied to Na-Ion Batteries Characterization Computational Studies on Na-Ion Electrode Materials Mössbauer Spectroscopy
ELECTROLYTES Carbonates vs Glmyes Ionic Liquids Ceramics/Nascion Polymers
OTHER EMERGING NA TECHNOLOGIES Na-Ion Capacitors Aqueous Na Batteries Na-O2 Systems Na-S Batteries Beyond Na: K- and Mg-Based Technologies
SAFETY, ECONOMICS, AND UPSCALING Dendrite Formation and Failure of Na Batteries Na-Ion Batteries Manufacturing Battery Packages Cost Analysis of Na-Ion Batteries Components Commercialization of Na-Ion Batteries
INTRODUCTION Na-Ion Batteries Introduction and Electrochemistry Na- versus Li-Ion Batteries
ANODES Graphite Graphene and CNTs Hard Carbons Soft Carbons Alloys Conversion Anodes 2D Materials Organic Materials
CATHODES Layer Transition Metals Tunnel-Type Oxides Phosphates and Mixed Polyanions Prussian Blue Analogues High Voltage Cathodes Fe and Mn Based Cathodes for Na-Ion Batteries
ADVANCED CHARACTERIZATION OF NA-ION BATTERY ELECTRODES Advanced "in Operando" X-Ray Characterization Methods for Na-Ion Batteries Neutron and Muon Studies on Na Ion Battery Materials NMR and MRI Applied to Na-Ion Batteries Characterization Computational Studies on Na-Ion Electrode Materials Mössbauer Spectroscopy
ELECTROLYTES Carbonates vs Glmyes Ionic Liquids Ceramics/Nascion Polymers
OTHER EMERGING NA TECHNOLOGIES Na-Ion Capacitors Aqueous Na Batteries Na-O2 Systems Na-S Batteries Beyond Na: K- and Mg-Based Technologies
SAFETY, ECONOMICS, AND UPSCALING Dendrite Formation and Failure of Na Batteries Na-Ion Batteries Manufacturing Battery Packages Cost Analysis of Na-Ion Batteries Components Commercialization of Na-Ion Batteries
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