Understanding the reaction chemistry during charging in aprotic lithium–oxygen batteries: existing problems and solutions
The aprotic lithium–oxygen (Li–O2) battery has excited huge interest due to it having the
highest theoretical energy density among the different types of rechargeable battery. The …
highest theoretical energy density among the different types of rechargeable battery. The …
Reaction chemistry in rechargeable Li–O 2 batteries
The seemingly simple reaction of Li–O2 batteries involving lithium and oxygen makes this
chemistry attractive for high-energy-density storage systems; however, achieving this …
chemistry attractive for high-energy-density storage systems; however, achieving this …
Sodium-based batteries: from critical materials to battery systems
Sodium-based energy storage systems are attracting tremendous attention along with the
growing demand for electric vehicles and grid-scale energy storage. Sharing similar …
growing demand for electric vehicles and grid-scale energy storage. Sharing similar …
[HTML][HTML] From lithium to sodium: cell chemistry of room temperature sodium–air and sodium–sulfur batteries
P Adelhelm, P Hartmann, CL Bender… - Beilstein journal of …, 2015 - beilstein-journals.org
Research devoted to room temperature lithium–sulfur (Li/S 8) and lithium–oxygen (Li/O 2)
batteries has significantly increased over the past ten years. The race to develop such cell …
batteries has significantly increased over the past ten years. The race to develop such cell …
Kinetics and Pore Formation of the Sodium Metal Anode on NASICON‐Type Na3.4Zr2Si2.4P0.6O12 for Sodium Solid‐State Batteries
T Ortmann, S Burkhardt, JK Eckhardt… - Advanced energy …, 2023 - Wiley Online Library
In recent years, many efforts have been made to introduce reversible alkali metal anodes
using solid electrolytes in order to increase the energy density of next‐generation batteries …
using solid electrolytes in order to increase the energy density of next‐generation batteries …
The critical role of phase-transfer catalysis in aprotic sodium oxygen batteries
In the search for improved energy storage, rechargeable metal–oxygen batteries are very
attractive owing to their reliance on molecular oxygen, which forms oxides on discharge that …
attractive owing to their reliance on molecular oxygen, which forms oxides on discharge that …
Sodium‐oxygen batteries: a comparative review from chemical and electrochemical fundamentals to future perspective
Alkali metal‐oxygen (Li‐O2, Na‐O2) batteries have attracted a great deal of attention
recently due to their high theoretical energy densities, comparable to gasoline, making them …
recently due to their high theoretical energy densities, comparable to gasoline, making them …
High‐energy‐density metal–oxygen batteries: Lithium–Oxygen batteries vs Sodium–Oxygen batteries
The development of next‐generation energy‐storage devices with high power, high energy
density, and safety is critical for the success of large‐scale energy‐storage systems (ESSs) …
density, and safety is critical for the success of large‐scale energy‐storage systems (ESSs) …
First-Principles Study of Nitrogen-, Boron-Doped Graphene and Co-Doped Graphene as the Potential Catalysts in Nonaqueous Li–O2 Batteries
In this work, we perform a first-principles study of graphene, nitrogen-, boron-doped
graphene, and codoped graphene as the potential catalysts in nonaqueous lithium–oxygen …
graphene, and codoped graphene as the potential catalysts in nonaqueous lithium–oxygen …
A high-rate and long-life organic–oxygen battery
Alkali metal–oxygen batteries promise high gravimetric energy densities but suffer from low
rate capability, poor cycle life and safety hazards associated with metal anodes. Here we …
rate capability, poor cycle life and safety hazards associated with metal anodes. Here we …