Add to ORKGGraphite and non-graphitising ("hard") carbons are important anode materials for battery technologies. The electrochemical intercalation of alkali metals in graphite has been widely studied by first-principles density-functional theory (DFT). However, similar investigations of disordered "hard" and nanoporous carbons have been challenging due to the structural complexity involved. Here, we combine DFT with machine-learning (ML) methods to study the intercalation of alkali metal (Li, Na, K) atoms in model carbon systems over a range of densities and degrees of disorder. We use a stochastic approach to compute voltage-filling profiles, studying the three metal species side-by-side, and we analyse the ionic charges of metal atoms as a function...
Hard carbon is the most promising anode material for sodium-ion batteries and potassium-ion batterie...
Li-ion batteries have been extensively examined and are key technology in modern society. However, i...
The need for sustainable, economical, and high energy density rechargeable batteries are mandatory t...
International audienceDisordered nanoporous and ''hard'' carbons are widely used in batteries and su...
Disordered nanoporous and "hard" carbons are widely used in batteries and supercapacitors, but their...
The intercalation of alkali metals in disordered carbon anode materials is studied by a combination ...
We demonstrate how machine-learning based interatomic potentials can be used to model guest atoms in...
We demonstrate how machine-learning based interatomic potentials can be used to model guest atoms in...
Carbon-based anodes are technologically highly relevant for Li and post-Li ion batteries. While the ...
Hard carbons are among the most promising materials for alkali-ion metal anodes. These materials hav...
Structural data are given as obtained from DFT computations of metal-intercalated carbon structures,...
Contrary to a wide-spread belief that alkali metal (AM) atoms intercalated into layered materials fo...
There are several questions and controversies regarding the Na storage mechanism in hard carbon. Thi...
First-principles calculations were done to examine the energetics of alkali metal intercalation into...
We report on the energetics of intercalation of lithium, sodium and potassium in graphite by density...
Hard carbon is the most promising anode material for sodium-ion batteries and potassium-ion batterie...
Li-ion batteries have been extensively examined and are key technology in modern society. However, i...
The need for sustainable, economical, and high energy density rechargeable batteries are mandatory t...
International audienceDisordered nanoporous and ''hard'' carbons are widely used in batteries and su...
Disordered nanoporous and "hard" carbons are widely used in batteries and supercapacitors, but their...
The intercalation of alkali metals in disordered carbon anode materials is studied by a combination ...
We demonstrate how machine-learning based interatomic potentials can be used to model guest atoms in...
We demonstrate how machine-learning based interatomic potentials can be used to model guest atoms in...
Carbon-based anodes are technologically highly relevant for Li and post-Li ion batteries. While the ...
Hard carbons are among the most promising materials for alkali-ion metal anodes. These materials hav...
Structural data are given as obtained from DFT computations of metal-intercalated carbon structures,...
Contrary to a wide-spread belief that alkali metal (AM) atoms intercalated into layered materials fo...
There are several questions and controversies regarding the Na storage mechanism in hard carbon. Thi...
First-principles calculations were done to examine the energetics of alkali metal intercalation into...
We report on the energetics of intercalation of lithium, sodium and potassium in graphite by density...
Hard carbon is the most promising anode material for sodium-ion batteries and potassium-ion batterie...
Li-ion batteries have been extensively examined and are key technology in modern society. However, i...
The need for sustainable, economical, and high energy density rechargeable batteries are mandatory t...