This project was a part of the Indo-US collaborative research platform Solar Energy Research Institute for India and the United States (SERIIUS; www.
A neural network based approach to predict high-voltage Li-ion battery cathode materials.
Energy storage will play an important role in the Government of India’s efforts to meet the ambitious targets with regards to electric mobility and renewable energy.
The present study explores H2V3O8 as high capacity cathode material for lithium-ion batteries (LIB's).
Sodium-ion battery (NIB) cathode performance based on ammonium vanadate is demonstrated here as having high capacity, long cycle life and good rate capability.
Access to electricity can bring about a transformative change in the economic conditions and growth of any country.
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.
A sodium-ion battery (NIB) cathode performance based on ammonium vanadate is demonstrated here as high capacity, long cycle life and good rate capability.
First–principles DFT simulations are computationally demanding but are reasonably accurate in predicting properties of battery cathode materials.
COVID-19 has rattled global industrial production by disrupting supply chains of raw materials and intermediates.
•Modelling framework for a PV microgrid by incorporating battery degradation.
This technical brief examines existing and emerging lithium-ion battery technologies.
Batteries are commonly employed as energy storage systems for PV stand-alone microgrid.
When it comes to powering electric vehicles (EVs), lithium-ion batteries (LIBs) are the front runners globally.