Add to ORKGLithium-Oxygen batteries are considered as one of the future battery technology due to their high theoretical energy-density potential. The theoretical specific energy of Lithium-Oxygen battery is around 11.5Wh/kg. This is due to light weight anode and the expectation that oxygen can be obtained from the atmosphere. The chemistry of Lithium-Oxygen battery in a non-aqueous system involves the electro-deposition and decomposition of Li2O2 during discharge and charging respectively. Among the numerous challenges of this system is the high charging over-potential that limits energy efficiency and cycling performance. The focus of this work is to investigate the effects of structural variation of the Li2O2 to the charging performance. Investigat...
The rising demand for energy storage is spurring the need for batteries with high energy density. Me...
Via designing a facile microscale all-solid-state lithium–oxygen battery system constructed in an en...
With the increasing importance of electrified transport, the need for high energy density storage is...
Lithium-Oxygen batteries are considered as one of the future battery technology due to their high th...
The Li-O2 battery is a promising electrochemical energy storage platform for transportation applicat...
In this work Li-O2 batteries have been investigated. Their theoretical specific energy is 3500 Wh/(k...
Via designing a facile microscale all-solid-state lithium oxygen battery system constructed in an en...
The promising lithium-oxygen battery chemistry presents a set of challenges that need to be solved i...
Lithium oxygen battery has the potential to outdo the best battery system on the market due to its h...
Lithium-oxygen batteries have an ultrahigh theoretical energy density, almost ten times higher than ...
© 2017 Lithium oxygen battery has the highest theoretical capacity among the rechargeable batteries ...
We report on the use of a petroleum coke-based activated carbon (AC) with very high surface area for...
© 2016 Elsevier B.V. Lithium oxygen batteries have attracted much attention due to the high theoreti...
© 2017 Elsevier Ltd It is reported lithium superoxide as the discharge product can largely decrease ...
In this report we examine the influence of electrode binder and electrolyte solvent on the electroch...
The rising demand for energy storage is spurring the need for batteries with high energy density. Me...
Via designing a facile microscale all-solid-state lithium–oxygen battery system constructed in an en...
With the increasing importance of electrified transport, the need for high energy density storage is...
Lithium-Oxygen batteries are considered as one of the future battery technology due to their high th...
The Li-O2 battery is a promising electrochemical energy storage platform for transportation applicat...
In this work Li-O2 batteries have been investigated. Their theoretical specific energy is 3500 Wh/(k...
Via designing a facile microscale all-solid-state lithium oxygen battery system constructed in an en...
The promising lithium-oxygen battery chemistry presents a set of challenges that need to be solved i...
Lithium oxygen battery has the potential to outdo the best battery system on the market due to its h...
Lithium-oxygen batteries have an ultrahigh theoretical energy density, almost ten times higher than ...
© 2017 Lithium oxygen battery has the highest theoretical capacity among the rechargeable batteries ...
We report on the use of a petroleum coke-based activated carbon (AC) with very high surface area for...
© 2016 Elsevier B.V. Lithium oxygen batteries have attracted much attention due to the high theoreti...
© 2017 Elsevier Ltd It is reported lithium superoxide as the discharge product can largely decrease ...
In this report we examine the influence of electrode binder and electrolyte solvent on the electroch...
The rising demand for energy storage is spurring the need for batteries with high energy density. Me...
Via designing a facile microscale all-solid-state lithium–oxygen battery system constructed in an en...
With the increasing importance of electrified transport, the need for high energy density storage is...