With the use of various electrodeposition conditions (concentration and pH of the bulk MnSO₄ solution, temperature, synthetis mode) and thermal treatments, g -MnO₂ materials exhibiting rather different physico-chemical and structural characteristics were prepared. Relationships were established between synthesis conditions and such characteristics, showing that to some extent these physico-chemical and structural parameters can be tuned.

The electrochemical behavior of lithiated phases obtained upon the first Li insertion into these g -MnO₂ materials has been investigated. It is shown that the maximum Li reversible intercalation capacity strongly depends on the structural parameters (concentration of De Wolff defects and degree of microtwinning) of the starting g -MnO₂ samples.

Keywords: g -MnO₂, electrodeposition, characterization, Li insertion, cycling behavior.