Add to ORKGAluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte interface (CEI) stability. Aluminum in the bulk is known to enhance structural and thermal stability, yet the exact influence of aluminum at the CEI remains unclear. To address this, we utilized a combination of X-ray photoelectron and absorption spectroscopy to identify aluminum surface environments and extent of transition metal reduction for Ni-rich LiNi0.8Co0.2-yAlyO2 (0%, 5%, or 20% Al) layered oxide cathodes tested at 4.75 V under thermal stress (60 °C). For these tests, we compared the conventional LiPF6 salt with the more thermally stable LiBF4 salt. The CEI layers are inherently different between these two electrolyte salts, particularl...
Enabling practical utilization of layered R3̅m positive electrodes near full delithiation requires a...
Current trend of high-capacity Ni-rich layered cathode is to develop high-Ni and low-Co or Co-free o...
© 2019 This study focuses on a novel approach for the structural design of LiNi0.86Co0.12Al0.02O2 ca...
Aluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte int...
For layered oxide cathodes, aluminum doping has widely been shown to improve performance, particular...
For layered oxide cathodes, impedance growth and capacity fade related to reactions at the cathode–e...
This article presents a process for producing LiNi1-xAlxO2 (0 < × < 0.05) cathode material with hi...
Effect of trace Al surface doping on the structure, surface chemistry and low temperature performanc...
Surface coating of cathode materials with Al<sub>2</sub>O<sub>3</sub> has been shown to be a promisi...
Aluminum-based coatings are commonly used in lithium-ion batteries to modify the surface of LiCoO2 p...
Layered transition metal oxide cathode materials can exhibit high energy densities in Li-ion batteri...
The electrochemical properties of layered rock salt cathode materials are strongly influenced by def...
The thriving energy-storage market has been motivating enormous efforts to advance the state-of-art ...
A major challenge for lithium-ion batteries based on nickel-rich layered oxide cathodes is capacity ...
Transition metal (TM) dissolution from oxide cathode materials is a major challenge limiting the per...
Enabling practical utilization of layered R3̅m positive electrodes near full delithiation requires a...
Current trend of high-capacity Ni-rich layered cathode is to develop high-Ni and low-Co or Co-free o...
© 2019 This study focuses on a novel approach for the structural design of LiNi0.86Co0.12Al0.02O2 ca...
Aluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte int...
For layered oxide cathodes, aluminum doping has widely been shown to improve performance, particular...
For layered oxide cathodes, impedance growth and capacity fade related to reactions at the cathode–e...
This article presents a process for producing LiNi1-xAlxO2 (0 < × < 0.05) cathode material with hi...
Effect of trace Al surface doping on the structure, surface chemistry and low temperature performanc...
Surface coating of cathode materials with Al<sub>2</sub>O<sub>3</sub> has been shown to be a promisi...
Aluminum-based coatings are commonly used in lithium-ion batteries to modify the surface of LiCoO2 p...
Layered transition metal oxide cathode materials can exhibit high energy densities in Li-ion batteri...
The electrochemical properties of layered rock salt cathode materials are strongly influenced by def...
The thriving energy-storage market has been motivating enormous efforts to advance the state-of-art ...
A major challenge for lithium-ion batteries based on nickel-rich layered oxide cathodes is capacity ...
Transition metal (TM) dissolution from oxide cathode materials is a major challenge limiting the per...
Enabling practical utilization of layered R3̅m positive electrodes near full delithiation requires a...
Current trend of high-capacity Ni-rich layered cathode is to develop high-Ni and low-Co or Co-free o...
© 2019 This study focuses on a novel approach for the structural design of LiNi0.86Co0.12Al0.02O2 ca...