[HTML][HTML] Nitrate additives for lithium batteries: Mechanisms, applications, and prospects
X Li, R Zhao, Y Fu, A Manthiram - EScience, 2021 - Elsevier
Lithium-metal batteries (LMBs) are considered as one of the most promising energy storage
devices due to the high energy density and low reduction potential of the Li-metal anode …
devices due to the high energy density and low reduction potential of the Li-metal anode …
Addressing transport issues in non-aqueous Li–air batteries to achieving high electrochemical performance
Li–air batteries are a promising type of energy storage technology because of the ultra-high
theoretical specific energy. Great advances are made in recent years, including the …
theoretical specific energy. Great advances are made in recent years, including the …
Glyme-based electrolytes: suitable solutions for next-generation lithium batteries
The concept of green in a battery involves the chemical nature of electrodes and electrolytes
as well as the economic sustainability of the cell. Although these aspects are typically …
as well as the economic sustainability of the cell. Although these aspects are typically …
Stable cycling and uniform lithium deposition in anode-free lithium-metal batteries enabled by a high-concentration dual-salt electrolyte with high LiNO3 content
Despite their potential for achieving high energy density, anode-free batteries (AFBs) suffer
from poor cycling stability caused by uncontrollable Li-metal deposition. To improve the …
from poor cycling stability caused by uncontrollable Li-metal deposition. To improve the …
Regulating the Li+‐Solvation Structure of Ester Electrolyte for High‐Energy‐Density Lithium Metal Batteries
The development of high‐energy‐density Li metal batteries are hindered by electrolyte
consumption and uneven lithium deposition due to the unstable lithium‐electrolyte interface …
consumption and uneven lithium deposition due to the unstable lithium‐electrolyte interface …
The study of different redox mediators for competent Li–air batteries
Li-air batteries attract abundant attention in recent years with superior performance, and
have largely replaced traditional methods of energy storage. The main objective of Li–air …
have largely replaced traditional methods of energy storage. The main objective of Li–air …
Stabilizing Li Anodes in I2 Steam to Tackle the Shuttling-Induced Depletion of an Iodide/Triiodide Redox Mediator in Li–O2 Batteries with Suppressed Li Dendrite …
Redox mediators (RMs) have become a significant point in the now-established Li–O2
battery system to reduce the charging overpotential in the oxygen evolution process …
battery system to reduce the charging overpotential in the oxygen evolution process …
Towards safe lithium-sulfur batteries from liquid-state electrolyte to solid-state electrolyte
Z Pang, H Zhang, L Wang, D Song, X Shi, Y Ma… - Frontiers of Materials …, 2023 - Springer
Abstract Lithium-sulfur (Li− S) battery has been considered as one of the most promising
future batteries owing to the high theoretical energy density (2600 W· h· kg− 1) and the …
future batteries owing to the high theoretical energy density (2600 W· h· kg− 1) and the …
An Overview on the Unstable and Irreversible Lithium Metal Anode-Related Issues in Nonaqueous Li-O2/Air Batteries
Y Qiao, Z Li, X Wu, J Wang, H Zhang, Y Qin… - Journal of Materials …, 2024 - pubs.rsc.org
Towards the practical application of nonaqueous Li–O2/air batteries (LOBs/LABs) with high
theoretical energy density (3500 W h kg− 1), they should work stably, effectively, and safely …
theoretical energy density (3500 W h kg− 1), they should work stably, effectively, and safely …
High Charging Voltage Stable and Air Atmosphere Stable Li–O2 Batteries with an Electrolyte Based on Succinonitrile and In Situ Artificial SEI Construction
One experiment in this study utilized the plasticizer succinonitrile and lithium salt LiTFSI to
directly create an ionic liquid electrolyte, with an artificial solid electrolyte interface layer …
directly create an ionic liquid electrolyte, with an artificial solid electrolyte interface layer …