ABSTRACT
In this article, Li2MnO3 was successfully prepared by a facile one-step high-energy mechanical activation method free from sintering. XRD, SEM, and TEM techniques were employed to analyse the materials, meanwhile the electrochemical properties of the obtained material are studied. XRD result shows that the desired material Li2MnO3 can be obtained just by high-energy ball milling without sintering, and the existence of Li2MnO3 was further proved by XPS. The obtained materials by high-energy ball milling are in a nano-scale range from 20 to 100 nm, which was confirmed by TEM and SEM. The electrochemical tests show that the prepared materials can be directly put into use as the cathode of lithium-ion batteries without secondary treatment. Successful preparation of Li2MnO3 by high-energy mechanical activation method provides a breakthrough for the low energy consumption and environmentally friendly industrialisation of new powder materials.
Highlights
A route featuring no need of calcination for preparing powder material was brought forward.
The material prepared from this route showed appropriate performance.
This route is of much significance to the industrialization of new powder materials.
Disclosure statement
No potential conflict of interest was reported by the authors.