Finally, the applications of the amorphous carbon film are discussed.
Through investigation of changes of the intensity of electron spinning signal and morphology of amorphous carbon materials at different cycle numbers, mechanism for capacity fading was obtained.
The apparent rate of transition reaction from amorphous carbon to graphite is a constant and the reaction order is quasi-zero.
The latest research and development on anode materials for Li-ion batteries were reviewed, which included amorphous carbons, novel anode materials and modification of natural graphite.
The methods reduce or prevent plasma-induced charge damage to the substrates from the deposition of the amorphous carbon films.
Product nearly did not contain amorphous carbon and carbon-encapsulated iron particles.