The Design of a LiFePO<sub>4</sub>/Carbon Nanocomposite With a Core–Shell Structure and Its Synthesis by an In Situ Polymerization Restriction Method

Yonggang Wang; Yarong Wang; Eiji Hosono; Kai‐Xue Wang; Haoshen Zhou

doi:10.1002/ange.200802539

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The Design of a LiFePO₄/Carbon Nanocomposite With a Core–Shell Structure and Its Synthesis by an In Situ Polymerization Restriction Method

Yonggang Wang Yarong Wang Eiji Hosono Kai‐Xue Wang Haoshen Zhou

Year: 2008 Journal: Angewandte Chemie Vol: 120 (39)Pages: 7571-7575 Publisher: Wiley

DOI: 10.1002/ange.200802539

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Abstract

Auf ein langes Leben: Ein LiFePO4-Kohlenstoff-Komposit, bestehend aus einem hochkristallinen, 20–40 nm großen LiFePO4-Kern und einer 1–2 nm dicken Semigraphit-Schale, ergibt hohe Batterieleistungen bei sehr langer Zykluslebensdauer (siehe Diagramm). Die verwendete Synthesemethode kann auf die Herstellung anderer Materialien wie Li4Ti5O12-Kohlenstoff- und Mn3O4-Kohlenstoff-Komposite übertragen werden.

Keywords:

Nanocomposite In situ Polymer chemistry Polymerization Materials science Chemistry Core (optical fiber) Chemical engineering Nanotechnology Polymer Composite material Organic chemistry

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Advancements in Battery Materials

Physical Sciences → Engineering → Electrical and Electronic Engineering

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The Design of a LiFePO₄/Carbon Nanocomposite With a Core–Shell Structure and Its Synthesis by an In Situ Polymerization Restriction Method

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