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Size-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries

Journal Article


Abstract

  • High performance nanostructured iron fluorides with controllable sizes were successfully synthesized using oleylamine as a size tuning agent for the first time. They exhibited excellent cathode performances with large retensive capacities exceeding 200 mA h g-1 after 50 cycles and outstanding rate performances of nearly 100 mA h g-1 even at 10 C.

UOW Authors

  •   Lu, Yan (external author)
  •   Wen, Zhaoyin (external author)
  •   Jin, Jun (external author)
  •   Wu, Xiangwei (external author)
  •   Rui, Kun (external author)

Publication Date

  • 2014

Geographic Focus

Citation

  • Lu, Y., Wen, Z., Jin, J., Wu, X. & Rui, K. (2014). Size-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries. Chemical Communications, 50 (49), 6487-6490.

Scopus Eid

  • 2-s2.0-84901368351

Number Of Pages

  • 3

Start Page

  • 6487

End Page

  • 6490

Volume

  • 50

Issue

  • 49

Place Of Publication

  • United Kingdom

Abstract

  • High performance nanostructured iron fluorides with controllable sizes were successfully synthesized using oleylamine as a size tuning agent for the first time. They exhibited excellent cathode performances with large retensive capacities exceeding 200 mA h g-1 after 50 cycles and outstanding rate performances of nearly 100 mA h g-1 even at 10 C.

UOW Authors

  •   Lu, Yan (external author)
  •   Wen, Zhaoyin (external author)
  •   Jin, Jun (external author)
  •   Wu, Xiangwei (external author)
  •   Rui, Kun (external author)

Publication Date

  • 2014

Geographic Focus

Citation

  • Lu, Y., Wen, Z., Jin, J., Wu, X. & Rui, K. (2014). Size-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries. Chemical Communications, 50 (49), 6487-6490.

Scopus Eid

  • 2-s2.0-84901368351

Number Of Pages

  • 3

Start Page

  • 6487

End Page

  • 6490

Volume

  • 50

Issue

  • 49

Place Of Publication

  • United Kingdom