Structural and kinetic behavior of lithium-vanadium-oxide (LixV3O8) cathode is studied as lithium-ion battery electrode.
This paper introduces the concept of using Artificial Neural Network (ANN) techniques for predicting electrochemical potential of cathode materials in combination with first-principles based quantum mechanical calculations.
Sodium intercalation batteries might prove to be a viable alternative of lithium ion batteries, which is both expensive and in short supply due to unavailability of lithium.
Polyanion based cathode materials are most promising candidates for lithium ion batteries due to low cost, safety, environmental friendliness, etc.
The high capacity of Li-rich layered cathode materials is always accompanied by the removal of oxygen from the crystal structure.
India has set some ambitious renewable energy (RE) targets for itself — 175 GW by 2022 and 450 GW by 2030.
The performance of an electric vehicle (EV) is largely dependent on a battery and its materials composition.
A lithium-ion battery circular economy will significantly benefit the domestic EV and storage industry.
India has 21 of the 30 cities with the worst air quality in the world.
India's commitment to the EV30@30 initiative that targets at least30% of vehicle sales to be electric by 2030 translates into adding24 million two-wheelers, 2.
