Add to ORKGFeF3 is one of the candidates for next-generation cathode materials for Li rechargeable batteries due to its high specific capacity and high thermal stability.[1-2] During discharge, FeF3 theoretically stores Li ions with specific capacity of 712.52 mAh g-1 by combination of intercalation reaction above 2.0 V (237.51 mAh g-1) and conversion reaction below 2.0 V (475.01 mAh g-1) reactions.[1] The reaction mechanisms are as follows: Li+ + FeF3 + e- = LiFeF3 (intercalation
Fluoride cathode materials that undergo conversion reactions such as FeF3 have attracted increasing ...
Li-ion batteries have empowered consumer electronics and are now seen as the best choice to propel f...
Li-ion batteries have empowered consumer electronics and are now seen as the best choice to propel f...
The discovery of high-performance cathode materials is imperative for advances in current lithium-io...
Facile synthesis of rhombohedral type FeF3 introduced via two consecutive steps is introduced: i) ac...
The discovery of high-performance cathode materials is imperative for advances in current lithium-io...
More energy dense lithium ion batteries are essential for the production of long-range electric vehi...
In recent years, energy storage and conversion have become key areas of research to address social a...
National Basic Research Program of China (973 program) [2011CB935903]; National Natural Science Foun...
To find new cathode materials for future applications in lithium-ion batteries, lithium transition m...
The cycle lives for cathodes of nanocrystalline iron trifluoride (FeF_3) were measured in rechargeab...
FeF₃ possesses a high theoretical capacity of 712 mAh g⁻¹ owing to the three-electron reaction. Howe...
Transition metal fluoride (TMF) conversion cathodes, with high energy density, are recognized as pro...
As an alternative to commercial Ni- and Co-based intercalation-type cathode materials, conversion-ty...
Intercalation-type electrodes have now been commonly employed in todayâ s batteries due to their ca...
Fluoride cathode materials that undergo conversion reactions such as FeF3 have attracted increasing ...
Li-ion batteries have empowered consumer electronics and are now seen as the best choice to propel f...
Li-ion batteries have empowered consumer electronics and are now seen as the best choice to propel f...
The discovery of high-performance cathode materials is imperative for advances in current lithium-io...
Facile synthesis of rhombohedral type FeF3 introduced via two consecutive steps is introduced: i) ac...
The discovery of high-performance cathode materials is imperative for advances in current lithium-io...
More energy dense lithium ion batteries are essential for the production of long-range electric vehi...
In recent years, energy storage and conversion have become key areas of research to address social a...
National Basic Research Program of China (973 program) [2011CB935903]; National Natural Science Foun...
To find new cathode materials for future applications in lithium-ion batteries, lithium transition m...
The cycle lives for cathodes of nanocrystalline iron trifluoride (FeF_3) were measured in rechargeab...
FeF₃ possesses a high theoretical capacity of 712 mAh g⁻¹ owing to the three-electron reaction. Howe...
Transition metal fluoride (TMF) conversion cathodes, with high energy density, are recognized as pro...
As an alternative to commercial Ni- and Co-based intercalation-type cathode materials, conversion-ty...
Intercalation-type electrodes have now been commonly employed in todayâ s batteries due to their ca...
Fluoride cathode materials that undergo conversion reactions such as FeF3 have attracted increasing ...
Li-ion batteries have empowered consumer electronics and are now seen as the best choice to propel f...
Li-ion batteries have empowered consumer electronics and are now seen as the best choice to propel f...