Conversion materials for lithium ion batteries have recently attracted considerable attention due to their exceptional specific capacities. Some metal fluorides, such as CuF2, are promising candidates for cathode materials owing to their high operating potential, which stems from the high electronegativity of fluorine. However, the high ionicity of the metal–fluorine bond leads to a large band gap that renders these materials poor electronic conductors. Nanosizing the active material and embedding it within a conductive matrix such as carbon can greatly improve its electrochemical performance. In contrast to other fluorides, such as FeF2 and NiF2, good capacity retention has not, however, been achieved for CuF2. The reaction mechanisms that...
The application of metal fluorides as cathodes for lithium ion batteries has been hindered by inadeq...
As an alternative to commercial Ni- and Co-based intercalation-type cathode materials, conversion-ty...
Metal fluorides and oxides can store multiple lithium ions through conversion chemistry to enable hi...
Conversion materials for lithium ion batteries have recently attracted considerable attention due to...
Materials that undergo a conversion reaction with lithium (e.g., metal fluorides MF2: M = Fe, Cu, .....
energy of 1874 Wh/kg (600 Wh/Kg for LiCoO2). However, the electrochemical performance of CuF2 is dra...
Transition metal fluorides are potential candidates for advanced Li ion battery cathodes due to thei...
Transition metal fluorides are an appealing alternative to conventional intercalation compounds for ...
Metal fluorides usually have a large electronegativity and are promising electrode materials for hig...
Metal fluorides, promising lithium-ion battery cathode materials, have been classified as conversion...
In recent years, energy storage and conversion have become key areas of research to address social a...
For the Li1+xV1-xO2 materials, the amount of excess Li does not change the average crystal structure...
This thesis presents an in-depth investigation of the conversion reaction mechanism of cobalt difluo...
More energy dense lithium ion batteries are essential for the production of long-range electric vehi...
The 3d transition metal binary compounds have been extensively investigated for a large multi-electr...
The application of metal fluorides as cathodes for lithium ion batteries has been hindered by inadeq...
As an alternative to commercial Ni- and Co-based intercalation-type cathode materials, conversion-ty...
Metal fluorides and oxides can store multiple lithium ions through conversion chemistry to enable hi...
Conversion materials for lithium ion batteries have recently attracted considerable attention due to...
Materials that undergo a conversion reaction with lithium (e.g., metal fluorides MF2: M = Fe, Cu, .....
energy of 1874 Wh/kg (600 Wh/Kg for LiCoO2). However, the electrochemical performance of CuF2 is dra...
Transition metal fluorides are potential candidates for advanced Li ion battery cathodes due to thei...
Transition metal fluorides are an appealing alternative to conventional intercalation compounds for ...
Metal fluorides usually have a large electronegativity and are promising electrode materials for hig...
Metal fluorides, promising lithium-ion battery cathode materials, have been classified as conversion...
In recent years, energy storage and conversion have become key areas of research to address social a...
For the Li1+xV1-xO2 materials, the amount of excess Li does not change the average crystal structure...
This thesis presents an in-depth investigation of the conversion reaction mechanism of cobalt difluo...
More energy dense lithium ion batteries are essential for the production of long-range electric vehi...
The 3d transition metal binary compounds have been extensively investigated for a large multi-electr...
The application of metal fluorides as cathodes for lithium ion batteries has been hindered by inadeq...
As an alternative to commercial Ni- and Co-based intercalation-type cathode materials, conversion-ty...
Metal fluorides and oxides can store multiple lithium ions through conversion chemistry to enable hi...