Add to ORKGLithium-ion Batteries (LIBs) are an important facet of modern society. They are the subject of much research interest due to the increased demand for electric vehicles and their prevalent use in portable electronics, such as mobile phones and laptops. There are many ways in which battery performance can be improved, once such route is through the use of electrolyte additives. This project, in collaboration with Sony and Murata Manufacturing, focuses on electrolyte additives that affect the formation of the solid electrolyte interphase layer (SEI), a film that forms upon and protects electrodes
LiF-rich solid-electrolyte-interphase (SEI) can suppress the formation of lithium dendrites and prom...
Li ion batteries (LIB) are ubiquitous in portable electronics, and are increasingly used in automoti...
We have developed novel non-flammable high voltage electrolytes for lithium ion batteries. The optim...
International audienceThis chapter introduces the role of fluorinated and nonfluorinated additives i...
The incorporation of additives designed to sacrificially react on the surface of cathode materials o...
Li-ion batteries are the battery-type of choice for low power applications. They are a very promisin...
as thiu Fu-M ng nolog ate P PF6-P n of a PC t disc the M mogr than t e add more, ability 407 A rece...
The performance and lifetime of lithium-ion batteries are strongly influenced by their composition. ...
Lithium-ion batteries are of great importance for today's society. The state-of-the-art batteries th...
Lithium-bis(hexafluorobutan-2,3-diol)-borate (R1S), synthesized as a novel electrolyte component in ...
Unstable electrode/electrolyte interface is the major cause of degradation for silicon (Si)-based an...
The solid electrolyte interphase (SEI) layer is a key element of lithium-ion batteries (LIBs) enabli...
Increasing the energy densities of Li-ion batteries necessitates operation of layered lithiated oxid...
There is an ever increasing demand for fossil fuels. Lithium ion batteries (LIBs) can effectively re...
Several high-purity methyl perfluorocarboxylates were prepared (\u3e99.5% purity by mole) and invest...
LiF-rich solid-electrolyte-interphase (SEI) can suppress the formation of lithium dendrites and prom...
Li ion batteries (LIB) are ubiquitous in portable electronics, and are increasingly used in automoti...
We have developed novel non-flammable high voltage electrolytes for lithium ion batteries. The optim...
International audienceThis chapter introduces the role of fluorinated and nonfluorinated additives i...
The incorporation of additives designed to sacrificially react on the surface of cathode materials o...
Li-ion batteries are the battery-type of choice for low power applications. They are a very promisin...
as thiu Fu-M ng nolog ate P PF6-P n of a PC t disc the M mogr than t e add more, ability 407 A rece...
The performance and lifetime of lithium-ion batteries are strongly influenced by their composition. ...
Lithium-ion batteries are of great importance for today's society. The state-of-the-art batteries th...
Lithium-bis(hexafluorobutan-2,3-diol)-borate (R1S), synthesized as a novel electrolyte component in ...
Unstable electrode/electrolyte interface is the major cause of degradation for silicon (Si)-based an...
The solid electrolyte interphase (SEI) layer is a key element of lithium-ion batteries (LIBs) enabli...
Increasing the energy densities of Li-ion batteries necessitates operation of layered lithiated oxid...
There is an ever increasing demand for fossil fuels. Lithium ion batteries (LIBs) can effectively re...
Several high-purity methyl perfluorocarboxylates were prepared (\u3e99.5% purity by mole) and invest...
LiF-rich solid-electrolyte-interphase (SEI) can suppress the formation of lithium dendrites and prom...
Li ion batteries (LIB) are ubiquitous in portable electronics, and are increasingly used in automoti...
We have developed novel non-flammable high voltage electrolytes for lithium ion batteries. The optim...