Nickel-rich and cobalt-free layered oxide cathode materials for lithium ion batteries
For conventional cathode materials, cobalt plays an important role, but the cobalt content of
lithium battery cathode materials must be reduced because of the scarcity of cobalt …
lithium battery cathode materials must be reduced because of the scarcity of cobalt …
There and Back Again—The Journey of LiNiO2 as a Cathode Active Material
This Review provides a comprehensive overview of LiNiO2 (LNO), almost 30 years after its
introduction as a cathode active material. We aim to highlight the physicochemical …
introduction as a cathode active material. We aim to highlight the physicochemical …
Transition metal-doped Ni-rich layered cathode materials for durable Li-ion batteries
Do** is a well-known strategy to enhance the electrochemical energy storage
performance of layered cathode materials. Many studies on various dopants have been …
performance of layered cathode materials. Many studies on various dopants have been …
Oxygen hole formation controls stability in LiNiO2 cathodes
Ni-rich lithium-ion cathode materials achieve both high voltages and capacities but are
prone to structural instabilities and oxygen loss. The origin of the instability lies in the …
prone to structural instabilities and oxygen loss. The origin of the instability lies in the …
Cobalt-free, high-nickel layered oxide cathodes for lithium-ion batteries: Progress, challenges, and perspectives
High-nickel layered oxides are enabling extraordinary growth of electric vehicles market due
to its high energy density. Nonetheless, leading battery manufacturers are trying to cut down …
to its high energy density. Nonetheless, leading battery manufacturers are trying to cut down …
Al‐do** driven suppression of capacity and voltage fadings in 4d‐element containing Li‐ion‐battery cathode materials: Machine learning and density functional …
The anion redox reaction in high‐energy‐density cathode materials such as Li‐excess
layered oxides suffers from voltage/capacity fadings due to irreversible structural instability …
layered oxides suffers from voltage/capacity fadings due to irreversible structural instability …
Elucidating and Mitigating High‐Voltage Degradation Cascades in Cobalt‐Free LiNiO2 Lithium‐Ion Battery Cathodes
LiNiO2 (LNO) is a promising cathode material for next‐generation Li‐ion batteries due to its
exceptionally high capacity and cobalt‐free composition that enables more sustainable and …
exceptionally high capacity and cobalt‐free composition that enables more sustainable and …
Surface/interface structure degradation of Ni‐rich layered oxide cathodes toward lithium‐ion batteries: fundamental mechanisms and remedying strategies
L Liang, W Zhang, F Zhao, DK Denis… - Advanced Materials …, 2020 - Wiley Online Library
Nickel‐rich layered transition‐metal oxides with high‐capacity and high‐power capabilities
are established as the principal cathode candidates for next‐generation lithium‐ion …
are established as the principal cathode candidates for next‐generation lithium‐ion …
Formation and Detriments of Residual Alkaline Compounds on High‐Nickel Layered Oxide Cathodes
High‐nickel layered oxides LiNixM1‐xO2 (x≥ 0.9) have emerged as promising cathode
materials for automotive batteries due to their high energy density and lower cost. However …
materials for automotive batteries due to their high energy density and lower cost. However …
Stabilizing High‐Nickel Cathodes with High‐Voltage Electrolytes
Electrolytes connect the two electrodes in a lithium battery by providing Li+ transport
channels between them. Advanced electrolytes are being explored with high‐nickel …
channels between them. Advanced electrolytes are being explored with high‐nickel …