Oxygen-deficient metal–organic framework derivatives for advanced energy storage: Multiscale design, application, and future development
Owing to their dazzling physicochemical properties, metal–organic frameworks (MOFs) have
been extensively studied in the arena of the energy industry. Nevertheless, the intrinsically …
been extensively studied in the arena of the energy industry. Nevertheless, the intrinsically …
Anionic redox in rechargeable batteries: mechanism, materials, and characterization
T Cui, X Li, Y Fu - Advanced Functional Materials, 2023 - Wiley Online Library
Compared with conventional positive electrode materials in Li‐ion batteries, Li‐rich
materials have a huge advantage of large specific capacities of> 300 mAh g− 1. Anionic …
materials have a huge advantage of large specific capacities of> 300 mAh g− 1. Anionic …
Oxygen-vacancy-induced O2 activation and electron-hole migration enhance photothermal catalytic toluene oxidation
The rapid elimination of volatile organic compounds and the intermediate analysis with
efficient photothermal catalysis are of great significance to the environment. Oxygen …
efficient photothermal catalysis are of great significance to the environment. Oxygen …
Stabilization of Lattice Oxygen in Li‐Rich Mn‐Based Oxides via Swing‐like Non‐Isothermal Sintering
YH Zhang, D Zhang, LR Wu, J Ma, Q Yi… - Advanced Energy …, 2022 - Wiley Online Library
Redox from the holes at the O2p orbitals is a well‐known phenomenon in Li‐rich Mn‐based
batteries. However, such an anionic redox process results in the formation of O2, leading to …
batteries. However, such an anionic redox process results in the formation of O2, leading to …
A theoretical framework for oxygen redox chemistry for sustainable batteries
Lithium-rich layered oxides have emerged as a new model for designing the next generation
of cathode materials for batteries to assist the transition to a greener energy system. The …
of cathode materials for batteries to assist the transition to a greener energy system. The …
Overlithiation lithium-rich Mn-based oxide as cathode pre-lithiation agent towards high-energy-density batteries
Huge active Li+ loss in the initial cycle owing to the formation of solid electrolyte interface
(SEI) layer of anode restrict the enhancement of high-energy–density lithium-ion batteries …
(SEI) layer of anode restrict the enhancement of high-energy–density lithium-ion batteries …
Oxygen Defect and Cl–-Doped Modulated TiNb2O7 Compound with High Rate Performance in Lithium-Ion Batteries
P Cui, P Zhang, X Chen, X Chen, T Wan… - … Applied Materials & …, 2023 - ACS Publications
TiNb2O7 has attracted extensive attention from lithium-ion battery researchers due to its
superior specific capacity and safety. However, its poor ion conductivity and electron …
superior specific capacity and safety. However, its poor ion conductivity and electron …
Facilitating Reversible Cation Migration and Suppressing O2 Escape for High Performance Li‐Rich Oxide Cathodes
Abstract High‐capacity Li‐rich Mn‐based oxide cathodes show a great potential in next
generation Li‐ion batteries but suffer from some critical issues, such as, lattice oxygen …
generation Li‐ion batteries but suffer from some critical issues, such as, lattice oxygen …
Constructing stable surface structures enabling fast charging for Li-rich layered oxide cathodes
S Li, H Li, H Zhang, S Zhang, Y Lai, Z Zhang - Chemical Engineering …, 2022 - Elsevier
Li-rich Mn-based layered oxides (LLOs) exhibiting ultrahigh specific capacity larger than 250
mAh g− 1 have become the most promising cathode candidate for high energy density …
mAh g− 1 have become the most promising cathode candidate for high energy density …
Urea-assisted mixed gas treatment on Li-Rich layered oxide with enhanced electrochemical performance
Lithium-rich manganese-based oxides (LRMOs) have been considered as one of the most
promising cathode materials owing to their superior specific capacity and high operating …
promising cathode materials owing to their superior specific capacity and high operating …