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Lithium aluminium germanium phosphate, typically known with the acronyms LAGP or LAGPO, is an inorganic ceramic solid material whose general formula is Li 1+x Al x Ge 2-x (PO 4) 3. [3] LAGP belongs to the NASICON (Sodium Super Ionic Conductors) family of solid conductors [3] and has been applied as a solid electrolyte in all-solid-state lithium ...
Phosphate-based materials with a NASICON crystal structure, especially LATP and LAGP, are good candidates as solid-state electrolytes in lithium-ion batteries, [16] even if their average ionic conductivity (≈10 −5 - 10 −4 S/cm) is lower compared to other classes of solid electrolytes like garnets and sulfides. [15]
Lithium-ion lithium cobalt oxide battery (ICR) Lithium–silicon battery; Lithium-ion manganese iron phosphate battery; Lithium-ion manganese-oxide battery (LMO) Lithium-ion polymer battery (LiPo) Lithium–iron–phosphate battery (LFP) Lithium–nickel–manganese–cobalt oxides (NMC) Lithium–nickel–cobalt–aluminium oxides (NCA ...
Lithium is a highly reactive alkali metal that is widely used in various industrial applications due to its unique properties. Lithium compounds are formed by combining lithium with other elements, such as oxygen, sulfur, and chlorine, to form different chemical compounds.
Global demand for lithium-ion batteries is expected to soar over the next 10 years, McKinsey wrote in 2023, with the number of gigawatt hours required growing from about 700 in 2022 to around ...
Lithium aluminium germanium phosphate; Lithium–air battery; P. ProLogium; Q. QuantumScape This page was last edited on 2 May 2015, at 21:56 (UTC). Text is ...
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Like silicon, germanium has a high theoretical capacity (1600 mAh g-1), expands during charging, and disintegrates after a small number of cycles. [6] [7] However, germanium is 400 times more effective at intercalating lithium than silicon, making it an attractive anode material. The anodes claimed to retain capacities of 900 mAh/g after 1100 ...