Materials for Lithium-Ion Batteries

A lithium-ion battery comprises essentially three components: two intercalation compounds as positive and negative electrodes, separated by an ionic-electronic electrolyte. Each component is discussed in sufficient detail to give the practising engineer an understanding of the subject, providing gui...

Full description

Corporate Author: SpringerLink (Online service)
Other Authors: Julien, Christian (Editor), Stoynov, Z. (Editor)
Format: eBook
Published: Dordrecht Springer Netherlands 2000, 2000
Edition:1st ed. 2000
Series:Nato Science Partnership Subseries: 3, High Technology
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • Seminars
  • LiNi(M)O2 layered oxides: positive electrode materials for lithium batteries
  • New generation of 3-volt lithiated manganese oxide for high-performance lithium batteries
  • Sol-gel synthesis and electrochemical characterization of polycrystalline powders and thin films of Li1+xV3O8
  • Microstructure of Li1+xMn2-xO4 cathode materials monitored by EPR of Mn4+
  • EPR studies on the microstructure of LiNi1-yCoyO2 electrode materials for lithium-ion batteries
  • Mechanochemical synthesis of cathode materials for lithium batteries
  • Electronic transport properties in LixCr0.11V2O5.16
  • 7Li NMR in some lithium intercalation compounds Taking advantage of electronic spins
  • Single conductive polymer electrolytes: from pressure conductivity measurements to transport mechanism
  • Electrochemical and structural characterisation near the NiO2 composition
  • Synthesis of overlithiated LiNiO2 cathode materials for Li-ion cells
  • experimental setup
  • Advanced impedance techniques for lithium batteries study. Part II: data processing
  • Advanced impedance techniques for lithium batteries study. Part III: four dimensional analysis
  • Advanced impedance techniques for lithium batteries study. Part IV: differential impedance analysis
  • Lithium microbatteries
  • Fundamental aspects of electrochemical, chemical and electrostatic potentials in lithium batteries
  • Chemical stability aspects of high performance lithium batteries
  • Kinetic aspects of high performance solid electrolytes and electrodes
  • Solid state electrochemical methods for the characterization of the kinetics, thermodynamics and phase equilibria of lithium battery materials
  • Synthesis, properties and applications of Li-containing nanoparticles as electrode materials
  • PMMA based gel polymer electrolytes
  • Dielectric relaxations in lithium composite polymer electrolytes based on PEO and diethylaluminum carboxylate
  • Author index
  • Lectures
  • Design considerations for lithium batteries
  • Principles determining the potentials and capacities of electrochemical cells
  • Binary electrodes under equilibrium or near-equilibrium conditions
  • Better electrode materials for energy storage applications through chemistry
  • Carbon-lithium negative electrode for lithium ion batteries: main characteristics and features
  • Reactivity and safety aspects of carbonaceous anodes used in lithium-ion batteries. Correlation of structural parameters and reactivity
  • Structure and electrochemistry of new lithium intercalation compounds prepared via low temperature techniques
  • Structure and electrochemistry of doped LiMO2 (M=Ni, Co) cathode materials
  • New transition metal oxide electrodes for lithium batteries
  • Electrochemical features of lithium batteries based on molybdenum-oxide compounds
  • EXAFS: a structural probe for cathode materials in lithium ion batteries
  • anode materials for lithium-ion batteries
  • Characterization of nanostructure tin alloys as anodes in lithium-ion batteries
  • Mechanical activation of V2O5 in different media: ethanol, water and air
  • ?-MnO2 compounds as insertion hosts for Li+ and H+
  • Morphology and electrochemical performance in graphite
  • Impedance of lithium ion batteries. Basic models and differential analysis
  • New polymer membrane-separation materials for lithium batteries
  • Amorphous carbon films: magnetron sputter deposition and Li-intercalation properties
  • Transport properties of composite superionic material LiIO3+SiO2
  • Magnetron sputtered CuInSe2 layers as materials for solid-state batteries
  • Electron-gun evaporated carbon films for Li-ion microbatteries
  • Comparison study of the physical characteristics and cycling performance of commercially available Li-ion batteries
  • Posters
  • Physico-chemical properties of LiMn2O4 films grown by laser ablation
  • ESR studies of cathode materials with spinel structure
  • LiNi1-yCoyO2 cathode materials synthesized by wet chemistry
  • Comparative study between 4-V LiMn2O4, LiCoO2 and 3-V Li0.3MnO2, LiV3O8 as cathode materials for Li batteries
  • Comparative study of the electrochemical behaviour of lithium and potassium vanadates treated by water molecules
  • PTFE-acetylene black and ultrafine carbon suspensions as a conductive binder and conductive additive for the positive electrodes of the lithium and Li-ion batteries
  • Electrolytes for lithium batteries on the basis of complex fluorides and aprotic media
  • Lithium insertion mechanism in copper indium tin sulfospinels studied by 119Sn Mössbauer spectroscopy and Rietveld analysis