A Mechanistic Insight into the Oxygen Redox of Li‐Rich Layered Cathodes and their Related Electronic/Atomic Behaviors Upon Cycling
Li‐rich cathodes are extensively investigated as their energy density is superior to Li
stoichiometric cathode materials. In addition to the transition metal redox, this intriguing …
stoichiometric cathode materials. In addition to the transition metal redox, this intriguing …
Review of the US Department of Energy's “deep dive” effort to understand voltage fade in Li-and Mn-rich cathodes
JR Croy, M Balasubramanian… - Accounts of chemical …, 2015 - ACS Publications
Conspectus The commercial introduction of the lithium-ion (Li-ion) battery nearly 25 years
ago marked a technological turning point. Portable electronics, dependent on energy …
ago marked a technological turning point. Portable electronics, dependent on energy …
Phosphate polyanion materials as high-voltage lithium-ion battery cathode: a review
Followed by decades of successful efforts in developing cathode materials for high specific
capacity lithium-ion batteries, currently the attention is on developing a high-voltage battery …
capacity lithium-ion batteries, currently the attention is on developing a high-voltage battery …
Recent achievements on inorganic electrode materials for lithium-ion batteries
L Croguennec, MR Palacin - Journal of the American Chemical …, 2015 - ACS Publications
The lithium-ion battery technology is rooted in the studies of intercalation of guest ions into
inorganic host materials developed ca. 40 years ago. It further turned into a commercial …
inorganic host materials developed ca. 40 years ago. It further turned into a commercial …
Lithium‐and manganese‐rich oxide cathode materials for high‐energy lithium ion batteries
Layered lithium‐and manganese‐rich oxides (LMROs), described as xLi2MnO3·(1–x)
LiMO2 or Li1+ yM1–yO2 (M= Mn, Ni, Co, etc., 0< x< 1, 0< y≤ 0.33), have attracted much …
LiMO2 or Li1+ yM1–yO2 (M= Mn, Ni, Co, etc., 0< x< 1, 0< y≤ 0.33), have attracted much …
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 …
Nanocomposite Engineering of a High‐Capacity Partially Ordered Cathode for Li‐Ion Batteries
Understanding the local cation order in the crystal structure and its correlation with
electrochemical performances has advanced the development of high‐energy Mn‐rich …
electrochemical performances has advanced the development of high‐energy Mn‐rich …
Effects of cation superstructure ordering on oxygen redox stability in O2-type lithium-rich layered oxides
Archetypical layered oxide with oxygen redox capability bears an additional lithium ion in a
transition metal layer, and its local coordination with oxygen is crucial in triggering the …
transition metal layer, and its local coordination with oxygen is crucial in triggering the …
Recent advances and remaining challenges for lithium ion battery cathodes
Electrodes prepared from lithium-rich (Li-rich) xLi 2 MnO 3⋅(1-x) LiNi a Co b Mn c O 2
materials (a+ b+ c= 1) show extremely high discharge capacities, arising from excess Li+ …
materials (a+ b+ c= 1) show extremely high discharge capacities, arising from excess Li+ …
Re-entrant lithium local environments and defect driven electrochemistry of Li-and Mn-rich Li-ion battery cathodes
Direct observations of structure–electrochemical activity relationships continue to be a key
challenge in secondary battery research. 6Li magic angle spinning (MAS) nuclear magnetic …
challenge in secondary battery research. 6Li magic angle spinning (MAS) nuclear magnetic …