Add to ORKGGraphite is the most widely used anode material for Li-ion batteries and is also considered a promising anode for K-ion batteries. However, Na+, a similar alkali ion to Li+ or K+, is incapable of being intercalated into graphite and thus, graphite is not considered a potential electrode for Na-ion batteries. This atypical behavior of Na has drawn considerable attention; however, a clear explanation of its origin has not yet been provided. Herein, through a systematic investigation of alkali metal graphite intercalation compounds (AM-GICs, AM = Li, Na, K, Rb, Cs) in various solvent environments, it is demonstrated that the unfavorable local Na-graphene interaction primarily leads to the instability of Na-GIC formation but can be effectively ...
Sodium, in contrast to other metals, cannot intercalate in graphite, hindering the use of this cheap...
The intercalation of lithium ions into graphite electrode is the key underlying mechanism of modern ...
Graphite shows great potential as an anode material for rechargeable metal-ion batteries because of ...
Graphite is the most widely used anode material for Li-ion batteries and is also considered a promis...
The insertion of guest species in graphite is the key feature utilized in applications ranging from ...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
This study is focused on graphite as anode material for sodium-ion batteries (NIBs). Graphite electr...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
Reversible intercalation of guest ions in graphite is the key feature utilized in modern battery tec...
Li-ion batteries have been extensively examined and are key technology in modern society. However, i...
This work reports that natural graphite is capable of Na insertion and extraction with a remarkable ...
This work reports that natural graphite is capable of Na insertion and extraction with a remarkable ...
Co-intercalation reactions make graphite as promising anodes for sodium ion batteries, however, the ...
Sodium, in contrast to other metals, cannot intercalate in graphite, hindering the use of this cheap...
The intercalation of lithium ions into graphite electrode is the key underlying mechanism of modern ...
Graphite shows great potential as an anode material for rechargeable metal-ion batteries because of ...
Graphite is the most widely used anode material for Li-ion batteries and is also considered a promis...
The insertion of guest species in graphite is the key feature utilized in applications ranging from ...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
This study is focused on graphite as anode material for sodium-ion batteries (NIBs). Graphite electr...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
Here, we demonstrate that graphite can serve as a versatile electrode for various rechargeable batte...
Reversible intercalation of guest ions in graphite is the key feature utilized in modern battery tec...
Li-ion batteries have been extensively examined and are key technology in modern society. However, i...
This work reports that natural graphite is capable of Na insertion and extraction with a remarkable ...
This work reports that natural graphite is capable of Na insertion and extraction with a remarkable ...
Co-intercalation reactions make graphite as promising anodes for sodium ion batteries, however, the ...
Sodium, in contrast to other metals, cannot intercalate in graphite, hindering the use of this cheap...
The intercalation of lithium ions into graphite electrode is the key underlying mechanism of modern ...
Graphite shows great potential as an anode material for rechargeable metal-ion batteries because of ...