Lithium-ion battery operation

@article{Warner2019LithiumionBO,
  title={Lithium-ion battery operation},
  author={John T. Warner},
  journal={Lithium-Ion Battery Chemistries},
  year={2019}
}
  • J. Warner
  • Published 2019
  • Environmental Science
  • Lithium-Ion Battery Chemistries
7 Citations
Advances in Prevention of Thermal Runaway in Lithium‐Ion Batteries
The last couple of decades have seen unprecedented demand for high-performance batteries for electric vehicles, aerial surveillance technology, and grid-scale energy storage. The European Council for
Fiber Optic Sensing Technologies for Battery Management Systems and Energy Storage Applications
TLDR
The advancements enabling the practical implementation of battery internal parameter measurements including local temperature, strain, pressure, and refractive index for general operation, as well as the external measurements such as temperature gradients and vent gas sensing for thermal runaway imminent detection are discussed.
Interrelation Between Ionic Conduction and Ions Fraction of Biopolymer Electrolytes Based on Alginate Doped With NH4Cl
Abstract In this report, the relationship between the ionic conduction properties of alginate (AL) based biopolymer electrolyte (BE), and the amount of NH4Cl dopant and ethylene carbonate (EC)
Effect of calendering on rate performance of Li4Ti5O12 anodes for lithium-ion batteries
Lithium titanate (LTO) anodes despite their low specific capacity of 175 mAhg −1 from a low volume change and intercalation voltage of 1.55 V vs lithium are excellent for automotive applications

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Lithium Ion Batteries
Phase entropy as a function of lithium filling in the layered oxide S = KB ln(Ω) , Boltzman configuration entropy With Ω the configuration multiplicity (number of ways the inserted lithium cations
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