Add to ORKGLithium ion batteries are typically based on one of three positive-electrode materials, namely layered oxides, olivine- and spinel-type materials. The structure of any of them is 'resistant' to electrochemical cycling, and thus, often requires modification/post- treatment to improve a certain property, for example, structural stability, ionic and/or electronic conductivity. This review provides an overview of different examples of coatings and surface modifications used for the positive-electrode materials as well as various characterization techniques often chosen to confirm/detect the introduced changes. It also assesses the electrochemical success of the surface-modified positive-electrode materials, thereby highlighting remaining...
Funding Information: This work made use of the Aalto University Otanano and RAMI infrastructures. Th...
Since their commercialization Li-ion batteries have relied on the use of layered oxides (LiMO2) as p...
The importance of developing energy-dense lithium-ion batteries has gained much attention due to the...
Lithium ion batteries are typically based on one of three positive-electrode materials, namely layer...
International audienceThe research on the electrodes of Li-ion batteries aims to increase the energy...
In the recent years, lithium-ion batteries have prevailed and dominated as the primary power sources...
Li-rich layered oxides are promising positive electrode candidates for next-generation high-energy L...
Li-rich layered oxides are promising positive electrode candidates for next-generation high-energy L...
Motivated by new applications including electric vehicles and the smart grid, interest in advanced l...
Surface treatments with conducting polymers are effective in ameliorating charge capacities and cycl...
Minimizing the difference between the theoretical and practically obtained energy densities of layer...
Lithium oxides are the most promising cathode candidates for high-performance lithium-ion batteries ...
Since the birth of the lithium ion battery in the early 1990s, its development has been very rapid a...
Lithium ion batteries are encountering ever-growing demand for further increases in energy density. ...
Lithium oxides are the most promising cathode candidates for high-performance lithium-ion batteries ...
Funding Information: This work made use of the Aalto University Otanano and RAMI infrastructures. Th...
Since their commercialization Li-ion batteries have relied on the use of layered oxides (LiMO2) as p...
The importance of developing energy-dense lithium-ion batteries has gained much attention due to the...
Lithium ion batteries are typically based on one of three positive-electrode materials, namely layer...
International audienceThe research on the electrodes of Li-ion batteries aims to increase the energy...
In the recent years, lithium-ion batteries have prevailed and dominated as the primary power sources...
Li-rich layered oxides are promising positive electrode candidates for next-generation high-energy L...
Li-rich layered oxides are promising positive electrode candidates for next-generation high-energy L...
Motivated by new applications including electric vehicles and the smart grid, interest in advanced l...
Surface treatments with conducting polymers are effective in ameliorating charge capacities and cycl...
Minimizing the difference between the theoretical and practically obtained energy densities of layer...
Lithium oxides are the most promising cathode candidates for high-performance lithium-ion batteries ...
Since the birth of the lithium ion battery in the early 1990s, its development has been very rapid a...
Lithium ion batteries are encountering ever-growing demand for further increases in energy density. ...
Lithium oxides are the most promising cathode candidates for high-performance lithium-ion batteries ...
Funding Information: This work made use of the Aalto University Otanano and RAMI infrastructures. Th...
Since their commercialization Li-ion batteries have relied on the use of layered oxides (LiMO2) as p...
The importance of developing energy-dense lithium-ion batteries has gained much attention due to the...