Lithium Batteries 2016
DOI: 10.1007/978-3-319-19108-9_2
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Lithium Batteries

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Cited by 49 publications
(47 citation statements)
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“…Show these results in the calculations that the combustion powder was consist of 96.05% LCNAO 3.4% hydrocarbons, and 0.55% residual water vapor, These results agree in general with previous work on similar materials [16,20,21].…”
Section: Lcnao + H 2 O + Cosupporting
confidence: 90%
“…Show these results in the calculations that the combustion powder was consist of 96.05% LCNAO 3.4% hydrocarbons, and 0.55% residual water vapor, These results agree in general with previous work on similar materials [16,20,21].…”
Section: Lcnao + H 2 O + Cosupporting
confidence: 90%
“…Discharge curves showing background voltage and internal resistance for different battery chemistries. All the graphs except two were derived from digitization of graphs in marketing materials produced by manufacturers and textbooks . The background voltage curve (solid line) of Li/SVO‐CFx plotted with data recovered by digitization of published materials is remarkably close to that plotted with actual numerical data (dashed line—courtesy LivaNova, London, UK).…”
Section: Factors Affecting Device Longevitymentioning
confidence: 73%
“…Only 70% of the total battery capacity is thus “usable.” In contrast, the Li/MnO 2 EnduraLife™ battery (Boston Scientific, St. Paul, MN, USA) is able to maintain a battery voltage >2.8 V and a relatively stable internal resistance during most of its discharge, allowing the manufacturer to push the ERI to 90% discharge and still leave an adequate safety margin. The performance of a battery is determined not only by its anode and cathode materials, but also by its electrolyte and internal architecture (see below)—the discharge behaviors of the EnduraLife™ battery will not be automatically reproduced by all batteries which use the Li/MnO 2 chemistry …”
Section: Factors Affecting Device Longevitymentioning
confidence: 99%
“…These systems merit study since aluminum is more abundant (~80,000 ppm), cost-effective, and safer than lithium [9][10][11][12][13]. In addition, the theoretical-specific capacity of aluminum (3.0 Ah g −1 ) is comparable to that of lithium (3.9 Ah g −1 ) [14,15]; unlike lithium, aluminum batteries are not flammable and are not endangered by thermal runaway, which is still a very serious problem of lithium-ion batteries [16,17].…”
Section: Introductionmentioning
confidence: 99%