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| {{GlossaryTermTemp | | {{GlossaryTermTemp |
| |Ambiguities=Li-ion batteries | | |Ambiguities=Li-ion batteries |
− | |SubtermOf=Electrochemical energy storage, | + | |SubtermOf=Electrochemical energy storage, |
− | |Definition=Lithium-ion battery is a superterm for a huge nummber of battery versions. Electrodes and electrolytes require a lot of different materials in a variety of combinations. Through this new cell types have emerged and are emerging which makes a summary about the different lithium-ion batteries impossible. | + | |Definition=Lithium-ion battery is a superterm for a huge nummber of battery versions. Electrodes and electrolytes require a lot of different materials in a variety of combinations. Through these new cell types have emerged and are emerging which makes a summary about the different lithium-ion batteries impossible. |
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| A few examples for different lithium-ion batteries are: lithium titanate batteries (LTO), lithium- cobaltdioxid batteries (LCO), lithium-manganese batteries(LMO, LNMO), lithium-polymer batteries, lithium-iron phosphate batteries (LFP), lithium-air batteries or tin-sulphur-lithium-ion batteries. | | A few examples for different lithium-ion batteries are: lithium titanate batteries (LTO), lithium- cobaltdioxid batteries (LCO), lithium-manganese batteries(LMO, LNMO), lithium-polymer batteries, lithium-iron phosphate batteries (LFP), lithium-air batteries or tin-sulphur-lithium-ion batteries. |
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| Electrolytes are liquid and often organic. They can also exist in a (nearly) solid state through gelation. Since lithium is rather reaktive, e.g. with water, aqueous electrolytes cannot be used. | | Electrolytes are liquid and often organic. They can also exist in a (nearly) solid state through gelation. Since lithium is rather reaktive, e.g. with water, aqueous electrolytes cannot be used. |
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− | Li-ion batteries are mainly used for portable divices with a high demand for energy like laptops, cameras, mobile phones etc. They are also used in the field of electromobility for pedelecs, e-cars or hybrid cars. | + | Li-ion batteries are mainly used for portable divices with a high demand for energy like laptops, cameras, mobile phones etc. They are also used in the field of electromobility for pedelecs, e-cars or hybrid cars. |
| |Sources=https://www.enargus.de/pub/bscw.cgi/d1710512-2/*/*/Li-Ionen-Akkumulator.html?op=Wiki.getwiki&search=carbon | | |Sources=https://www.enargus.de/pub/bscw.cgi/d1710512-2/*/*/Li-Ionen-Akkumulator.html?op=Wiki.getwiki&search=carbon |
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Revision as of 10:04, 15 November 2017
Definition
Lithium-ion battery is a superterm for a huge nummber of battery versions. Electrodes and electrolytes require a lot of different materials in a variety of combinations. Through these new cell types have emerged and are emerging which makes a summary about the different lithium-ion batteries impossible.
A few examples for different lithium-ion batteries are: lithium titanate batteries (LTO), lithium- cobaltdioxid batteries (LCO), lithium-manganese batteries(LMO, LNMO), lithium-polymer batteries, lithium-iron phosphate batteries (LFP), lithium-air batteries or tin-sulphur-lithium-ion batteries.
The positive electrode of a lithium-ion battery usallay consists of lithium alloys or lithium-metal oxides. The negative electrode consists of graphite, silicon or lithium-titanates.
Electrolytes are liquid and often organic. They can also exist in a (nearly) solid state through gelation. Since lithium is rather reaktive, e.g. with water, aqueous electrolytes cannot be used.
Li-ion batteries are mainly used for portable divices with a high demand for energy like laptops, cameras, mobile phones etc. They are also used in the field of electromobility for pedelecs, e-cars or hybrid cars.
Abbreviation
Synonyms
Li-ion batteries
Superterms
Electrochemical energy storage
Subterms
Sources
https://www.enargus.de/pub/bscw.cgi/d1710512-2/*/*/Li-Ionen-Akkumulator.html?op=Wiki.getwiki&search=carbon