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

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 p... Full description

Journal Title: Chemical Communications 2014, Vol.50(49), pp.6487-6490
Main Author: Lu, Yan
Other Authors: Wen, Zhao-Yin , Jin, Jun , Wu, Xiang-Wei , Rui, Kun
Format: Electronic Article Electronic Article
Language:
Subjects:
ID: ISSN: 1359-7345 ; E-ISSN: 1364-548X ; DOI: 10.1039/c4cc01762e
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recordid: rscc4cc01762e
title: Size-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries
format: Article
creator:
  • Lu, Yan
  • Wen, Zhao-Yin
  • Jin, Jun
  • Wu, Xiang-Wei
  • Rui, Kun
subjects:
  • Cathodes
  • Tuning
  • Synthesis
  • Stability
  • Lithium-Ion Batteries
  • Fluorides
  • Iron
  • Nanostructure
  • Miscellaneous Sciences (So)
  • Design Principles (Mt)
  • Components and Materials (General) (Ea)
ispartof: Chemical Communications, 2014, Vol.50(49), pp.6487-6490
description: 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.
language:
source:
identifier: ISSN: 1359-7345 ; E-ISSN: 1364-548X ; DOI: 10.1039/c4cc01762e
fulltext: fulltext
issn:
  • 1359-7345
  • 1364-548X
  • 1364548X
  • 13597345
url: Link


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titleSize-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries
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descriptionHigh 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.
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subjectCathodes ; Tuning ; Synthesis ; Stability ; Lithium-Ion Batteries ; Fluorides ; Iron ; Nanostructure ; Miscellaneous Sciences (So) ; Design Principles (Mt) ; Components and Materials (General) (Ea);
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titleSize-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries
descriptionHigh 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.
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titleSize-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries
authorLu, Yan ; Wen, Zhao-Yin ; Jin, Jun ; Wu, Xiang-Wei ; Rui, Kun
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atitleSize-controlled synthesis of hierarchical nanoporous iron based fluorides and their high performances in rechargeable lithium ion batteries
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abstractHigh 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.
doi10.1039/c4cc01762e
pages6487-6490
date2014-05-22