Prospect and reality of Ni‐rich cathode for commercialization
The layered nickel‐rich cathode materials are considered as promising cathode materials
for lithium‐ion batteries (LIBs) due to their high reversible capacity and low cost. However …
for lithium‐ion batteries (LIBs) due to their high reversible capacity and low cost. However …
A perspective on nickel-rich layered oxide cathodes for lithium-ion batteries
Nickel-rich layered oxides are one of the most promising cathode candidates for next-
generation high-energy-density lithium-ion batteries. The advantages of these materials are …
generation high-energy-density lithium-ion batteries. The advantages of these materials are …
Nickel-rich layered cathode materials for automotive lithium-ion batteries: achievements and perspectives
ST Myung, F Maglia, KJ Park, CS Yoon… - ACS Energy …, 2017 - ACS Publications
Future generations of electric vehicles require driving ranges of at least 300 miles to
successfully penetrate the mass consumer market. A significant improvement in the energy …
successfully penetrate the mass consumer market. A significant improvement in the energy …
In situ formed LiNi0. 8Co0. 15Al0. 05O2@ Li4SiO4 composite cathode material with high rate capability and long cycling stability for lithium-ion batteries
Abstract LiNi 0.8 Co 0.15 Al 0.05 O 2 (LNCA) is a highly promising cathode material for
lithium-ion batteries, but the low-rate capability and poor cycling stability of LNCA limit the …
lithium-ion batteries, but the low-rate capability and poor cycling stability of LNCA limit the …
Atomic Layer Deposition of Stable LiAlF4 Lithium Ion Conductive Interfacial Layer for Stable Cathode Cycling
Modern lithium ion batteries are often desired to operate at a wide electrochemical window
to maximize energy densities. While pushing the limit of cutoff potentials allows batteries to …
to maximize energy densities. While pushing the limit of cutoff potentials allows batteries to …
Unveiling the stabilities of nickel‐based layered oxide cathodes at an identical degree of delithiation in lithium‐based batteries
Bulk, surface, and interfacial instabilities that impact the cycle and thermal performances are
the major challenges with high‐energy‐density LiNi1− x–yMnxCoyO2 (NMC) cathodes with …
the major challenges with high‐energy‐density LiNi1− x–yMnxCoyO2 (NMC) cathodes with …
A new type of protective surface layer for high-capacity Ni-based cathode materials: nanoscaled surface pillaring layer
A solid solution series of lithium nickel metal oxides, Li [Ni1–x M x] O2 (with M= Co, Mn, and
Al) have been investigated intensively to enhance the inherent structural instability of …
Al) have been investigated intensively to enhance the inherent structural instability of …
Long-Life Nickel-Rich Layered Oxide Cathodes with a Uniform Li2ZrO3 Surface Coating for Lithium-Ion Batteries
As nickel-rich layered oxide cathodes start to attract worldwide interest for the next-
generation lithium-ion batteries, their long-term cyclability in full cells remains a challenge …
generation lithium-ion batteries, their long-term cyclability in full cells remains a challenge …
In situ probing and synthetic control of cationic ordering in Ni‐Rich layered oxide cathodes
Ni‐rich layered oxides (LiNi1–xMxO2; M= Co, Mn,…) are appealing alternatives to
conventional LiCoO2 as cathodes in Li‐ion batteries for automobile and other large‐scale …
conventional LiCoO2 as cathodes in Li‐ion batteries for automobile and other large‐scale …
In situ TEM experiments of electrochemical lithiation and delithiation of individual nanostructures
Understanding the microscopic mechanisms of electrochemical reaction and material
degradation is crucial for the rational design of high‐performance lithium ion batteries (LIBs) …
degradation is crucial for the rational design of high‐performance lithium ion batteries (LIBs) …