LEADER 00000cam a2200673Ii 4500 
001    on1090540917 
003    OCoLC 
005    20200717185540.4 
006    m     o  d         
007    cr cnu---unuuu 
008    190325s2019    enk     ob    001 0 eng d 
015    GBB952330|2bnb 
016 7  019309299|2Uk 
019    1090541489|a1090762505|a1117892292 
020    9781788017602|q(electronic book) 
020    1788017609|q(electronic book) 
020    9781788016124|q(electronic book) 
020    1788016122|q(electronic book) 
020    |z1788014189 
020    |z9781788014182 
035    (OCoLC)1090540917|z(OCoLC)1090541489|z(OCoLC)1090762505
       |z(OCoLC)1117892292 
037    5398:5247|bRoyal Society of Chemistry|nhttp://www.rsc.org/
       spr 
040    N$T|beng|erda|epn|cN$T|dN$T|dEBLCP|dUKRSC|dUIU|dYDX|dUKMGB
       |dUKAHL|dOCLCF|dOCLCQ 
049    RIDW 
050  4 TK2945.L58 
072  7 TEC|x009070|2bisacsh 
082 04 621.312424|223 
090    TK2945.L58 
245 00 Future lithium-ion batteries /|cedited by Ali Eftekhari. 
264  1 London :|bRoyal Society of Chemistry,|c[2019] 
264  4 |c©2019 
300    1 online resource (1 volume) 
336    text|btxt|2rdacontent 
337    computer|bc|2rdamedia 
338    online resource|bcr|2rdacarrier 
340    |gpolychrome|2rdacc 
347    text file|2rdaft 
504    Includes bibliographical references and index. 
505 0  Intro; Half Title; Title; Copyright; Preface; Contents; 
       Chapter 1 New High-energy Anode Materials 1; 1.1 
       Introduction; 1.2 Carbide/Nitride Materials; 1.2.1 Carbon 
       Materials; 1.2.2 Carbides and Nitrides: MXenes; 1.3 
       Silicon, Metals, Metal Oxides and Metal Sulfides; 1.3.1 
       Challenges of Volume Expansion and Solutions; 1.3.2 
       Silicon Materials; 1.3.3 Metals, Metal Oxides and Metal 
       Sulfides; 1.4 Li Metal; 1.4.1 The Advantages of Li Metal 
       as Anode; 1.4.2 The Challenges of Li Metal as Anode; 1.4.3
       Solid-state Electrolyte and Solid-electrolyte Interphases 
       for a Li Metal Anode 
505 8  1.4.4 Manufacturing Techniques for Li Metal1.5 Conclusions
       and Outlook; Acknowledgements; References; Chapter 2 
       Layered Ni-rich Cathode Materials 26; 2.1 Introduction; 
       2.1.1 Cathode Material for the Next Generation Lithium-ion
       Battery; 2.1.2 Ni-rich Cathode Material; 2.1.3 Solutions 
       for Incomplete Ni-rich Cathode Material; 2.1.4 Perspective
       for Next Generation Ni-rich Cathodes Materials; 
       Acknowledgements; References; Chapter 3 Modification of 
       Layered Oxide Cathode Materials 44; 3.1 Introduction; 3.2 
       Common Layer-structured Materials; 3.2.1 LCO; 3.2.2 NCM; 
       3.2.3 NCA 
505 8  3.2.4 LLO and Blended Cathodes3.3 Modification Methods; 
       3.3.1 Coating; 3.3.2 Doping; 3.4 Conclusions; References; 
       Chapter 4 Solid Electrolytes for Lithium Metal and Future 
       Lithium-ion Batteries 72; 4.1 Introduction; 4.2 Evolution 
       and Recent Advancements in Solid Electrolytes; 4.2.1 Ionic
       Transport in Solid Electrolytes; 4.2.2 Solid Polymer 
       Electrolytes; 4.2.3 PEO-based SPEs; 4.2.4 Inorganic 
       Electrolytes; 4.3 Composite/Hybrid Electrolyte; 4.4 
       Electrode/Electrolyte Interfacial Chemistry and 
       Compatibility; 4.5 Conclusions and Outlook; References; 
       Chapter 5 Gel Polymer Electrolytes 102 
505 8  5.1 Introduction5.2 Types of Electrolytes; 5.3 Components 
       of Gel Polymer Electrolytes; 5.3.1 Lithium Salt; 5.3.2 
       Organic Solvent; 5.3.3 Polymer; 5.3.4 Inorganic Filler; 
       5.4 Characteristics and Requirements of Gel Polymer 
       Electrolytes; 5.4.1 Ionic Conductivity; 5.4.2 
       Electrochemical Stability; 5.4.3 Lithium Transference 
       Number; 5.4.4 Mechanical Properties; 5.5 Preparation of 
       Gel Polymer Electrolytes; 5.5.1 Solution Casting; 5.5.2 
       Hot Melting; 5.5.3 Immersion of Porous Membrane; 5.5.4 In 
       situ Cross-linking; 5.6 Concluding Remarks; References 
505 8  Chapter 6 Liquid Non-aqueous Electrolytes for High Voltage
       Lithium Ion Batteries 1306.1 Introduction; 6.2 Electrolyte
       Component of the High Voltage Electrode/Electrolyte 
       Interphase; 6.3 Critical Role of the Anion in the 
       Interphasal Stability of a High Voltage Cathode/
       Electrolyte; 6.4 Electrolytes for High Voltage Cathode 
       Materials; 6.4.1 Salt/Solvent Substitution; 6.4.2 Film-
       forming Electrolyte Additives; 6.5 Summary; 
       Acknowledgements; References; Chapter 7 Creation of a New 
       Design Concept for All-polymer-structured Batteries 163; 
       7.1 Introduction; 7.2 Improvement of Safety Is an Urgent 
       Issue 
520    This book collects authoritative perspectives from global 
       experts to project the emerging opportunities in the field
       of lithium-ion batteries. 
588 0  Online resource; title from PDF title page (EBSCO, viewed 
       March 29, 2019). 
590    eBooks on EBSCOhost|bEBSCO eBook Subscription Academic 
       Collection - North America 
650  0 Lithium ion batteries.|0https://id.loc.gov/authorities/
       subjects/sh2011000687 
650  7 Lithium ion batteries.|2fast|0https://id.worldcat.org/fast
       /1764640 
655  4 Electronic books. 
700 1  Eftekhari, Ali,|d1979-|0https://id.loc.gov/authorities/
       names/no2008094599|eeditor. 
776 08 |iEbook version :|z9781788016124 
776 08 |iPrint version:|tFuture lithium-ion batteries.|dLondon : 
       Royal Society of Chemistry, [2019]|z1788014189
       |z9781788014182|w(OCoLC)1057787889 
856 40 |uhttps://rider.idm.oclc.org/login?url=http://
       search.ebscohost.com/login.aspx?direct=true&scope=site&
       db=nlebk&AN=2090515|zOnline ebook via EBSCO. Access 
       restricted to current Rider University students, faculty, 
       and staff. 
856 42 |3Instructions for reading/downloading the EBSCO version 
       of this ebook|uhttp://guides.rider.edu/ebooks/ebsco 
901    MARCIVE 20231220 
948 00 |d20200727|cEBSCO|tEBSCOebooksacademic NEW June-July 17 
       7032|lridw 
994    92|bRID