Details

Sodium-Ion Batteries


Sodium-Ion Batteries

Materials, Characterization, and Technology, 2 Volumes
1. Aufl.

von: Maria-Magdalena Titirici, Philipp Adelhelm, Yong-Sheng Hu

259,99 €

Verlag: Wiley-VCH
Format: PDF
Veröffentl.: 06.12.2022
ISBN/EAN: 9783527825752
Sprache: englisch
Anzahl Seiten: 752

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Beschreibungen

<p><b>Presents uparalleled coverage of Na-ion battery technology, including the most recent research and emerging applications</b> <p>Na-ion battery technologies have emerged as cost-effective, environmentally friendly alternatives to Li-ion batteries, particularly for large-scale storage applications where battery size is less of a concern than in portable electronics or electric vehicles. Scientists and engineers involved in developing commercially viable Na-ion batteries need to understand the state-of-the-art in constituent materials, electrodes, and electrolytes to meet both performance metrics and economic requirements. <p><i>Sodium-Ion Batteries: Materials, Characterization, and Technology </i>provides in-depth coverage of the material constituents, characterization, applications, upscaling, and commercialization of Na-ion batteries. Contributions by international experts discuss the development and performance of cathode and anode materials and their characterization - using methods such as NMR spectroscopy, magnetic resonance imaging (MRI), and computational studies - as well as ceramics, ionic liquids, and other solid and liquid electrolytes. <ul> <li>Discusses the development of battery technology based on the abundant alkali ion sodium</li> <li>Features a thorough introduction to Na-ion batteries and their comparison with Li-ion batteries</li> <li>Reviews recent research on the structure-electrochemical performance relationship and the development of new solid electrolytes</li> <li>Includes a timely overview of commercial perspectives, cost analysis, and safety issues of Na-ion batteries</li> <li>Covers emerging technologies including Na-ion capacitors, aqueous sodium batteries, and Na-S batteries</li></ul><p>The handbook <i>Sodium-Ion Batteries: Materials, Characterization, and Technology</i> is an indispensable reference for researchers and development engineers, materials scientists, electrochemists, and engineering scientists in both academia and industry.
<p><b>Volume 1</b></p> <p>Preface xiii</p> <p><b>Part I Anodes 1</b></p> <p>1 Graphite as an Anode Material in Sodium-Ion Batteries 3<br /><i>Gustav Avall, Mustafa Goktas, and Philipp Adelhelm</i></p> <p>2 Hard Carbon Anodes for Na-Ion Batteries 27<br /><i>Fei Xie, Zhen Xu, Zhenyu Guo, Yuqi Li, Yaxiang Lu, Maria-Magdalena Titirici, and Yong-Sheng Hu</i></p> <p>3 Alloy Anodes for Sodium-Ion Batteries 61<br /><i>Yan Yu, Xianhong Rui, and Xianghua Zhang</i></p> <p><b>Part II Cathodes 93</b></p> <p>4 Sodium Layered Oxide Cathode Materials 95<br /><i>A. Robert Armstrong, Stephanie F. Linnell, Philip A. Maughan, Begoña Silván, and Nuria Tapia-Ruiz</i></p> <p>5 Phosphate-Based Polyanionic Sodium-Ion Electrode Materials 129<br /><i>G. M. Nolis, M. Casas-Cabanas, and M. Galceran</i></p> <p>6 Prussian Blue Electrodes for Sodium-Ion Batteries 167<br /><i>Sai Gourang Patnaik and Philipp Adelhelm</i></p> <p><b>Part III Advanced Characterization of Na-Ion Battery Electrodes 189</b></p> <p>7 Understanding Na-Ion Batteries on the Atomic Scale Through Operando X-ray and Neutron Scattering 191<br /><i>Christian Kolle Christensen and Dorthe Bomholdt Ravnsbæk</i></p> <p>8 NMR Investigations of Sodium-Ion Batteries 215<br /><i>Christopher A. O’Keefe and Clare P. Grey</i></p> <p>9 Computational Studies on Na-Ion Electrode Materials 259<br /><i>Emilia Olsson and Qiong Cai</i></p> <p>10 Pair Distribution Function Analysis of Sodium-Ion Batteries 301<br /><i>Phoebe K. Allan and Joshua M. Stratford</i></p> <p><b>Volume 2</b></p> <p>Preface xiii</p> <p><b>Part IV Electrolytes 333</b></p> <p>11 Ester- and Ether-Based Electrolytes for Na-Ion Batteries 335<br /><i>Yuqi Li, Lin Zhou, Fei Xie, Yu Li, Zhao Chen, Yaxiang Lu, and Yong-Sheng Hu</i></p> <p>12 Ionic Liquid and Polymer-Based Electrolytes for Sodium Battery Applications 357<br /><i>Maria Forsyth, Faezeh Makhlooghiazad, Fangfang Chen, Ju Sun, and Patrick C. Howlett</i></p> <p>13 Sodium-ion-conducting Oxides Used as Solid Electrolytes in Sodium Batteries -- Learning from the Past 391<br /><i>F. Tietz</i></p> <p>14 Polymers in Sodium-Ion Batteries 429<br /><i>Heather Au and Maria Crespo-Ribadeneyra</i></p> <p><b>Part V Safety and Other Practical Aspects 501</b></p> <p>15 Sodium-Ion Batteries: Aging, Degradation, Failure Mechanisms and Safety 503<br /><i>Julia Weaving, James Robinson, Daniela Ledwoch, Guanjie He, Emma Kendrick, Paul Shearing, and Daniel Brett</i></p> <p>16 Practical Application of Room Temperature Na-Ion Batteries 531<br /><i>Kun Tang and Yu Ren</i></p> <p>17 On the Environmental Competitiveness of Sodium-Ion Batteries -- Current State of the Art in Life Cycle Assessment 551<br /><i>Jens Peters, Manuel Baumann, Marcel Weil, and Stefano Passerini</i></p> <p><b>Part VI Other Na Based Technologies 573</b></p> <p>18 High-Power Sodium-Ion Batteries and Sodium-Ion Capacitors 575<br /><i>Binson Babu and Andrea Balducci</i></p> <p>19 Rechargeable Seawater Batteries 603<br /><i>Wang-geun Lee and Youngsik Kim</i></p> <p>20 Sodium Solid-state Batteries 641<br /><i>Edouard Quérel and Ainara Aguadero</i></p> <p>Index 705</p>
<p><b>Maria-Magdalena Titirici</b> is Chair of Sustainable Energy Materials, Imperial College London, UK, and a Chair in Emerging Sustainable Technologies with the Royal Academy of Engineering.</p> <p><b>Philipp Adelhelm</b> 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. <p><b>Yong-Sheng Hu</b> is Full Professor and Director of Key Laboratory for Rene-wable Energy, Chinese Academy of Sciences, and Founder of HiNa Battery, China.
<p><b>Presents uparalleled coverage of Na-ion battery technology, including the most recent research and emerging applications</b></p> <p>Na-ion battery technologies have emerged as cost-effective, environmentally friendly alternatives to Li-ion batteries, particularly for large-scale storage applications where battery size is less of a concern than in portable electronics or electric vehicles. Scientists and engineers involved in developing commercially viable Na-ion batteries need to understand the state-of-the-art in constituent materials, electrodes, and electrolytes to meet both performance metrics and economic requirements. <p><i>Sodium-Ion Batteries: Materials, Characterization, and Technology</i> provides in-depth coverage of the material constituents, characterization, applications, safety, and commercialization of Na-ion batteries. Contributions by international experts discuss the development and performance of cathode and anode materials as well as liquid and solid electrolytes. Specific chapters address analytical tools (NMR, X-ray and neutron scattering), computational studies and practical aspects. <p><ul><li>Features a comprehensive overview and discussion on the various electrode materials (graphite, carbons, alloys, layered oxide, phosphates, Prussian blue compounds) and electrolytes (organic liquid electrolytes, ionic liquids, solid oxide electrolytes, polymer electrolytes)</li> <li>Reviews the use of special analytical tools for electrode characterization and gives an overview on computational studies</li> <li>Includes a timely overview of commercial perspectives, life cycle assessment, and safety aspects of Na-ion batteries</li> <li>Covers emerging technologies including Na-ion capacitors, aqueous sodium batteries, and solid-state batteries</li></ul> <p>The handbook <i>Sodium-Ion Batteries: Materials, Characterization, and Technology</i> is an indispensable reference for researchers and development engineers, materials scientists, electrochemists, and engineering scientists in both academia and industry.

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