Chunxi Hai
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View article: Enhancing Cyclic Performance of Lithium–Aluminum Layered Double Hydroxides Type Adsorbents via Vanadium Anions Intercalation for Li <sup>+</sup> Extraction from Sulfate‐Type Brines
Enhancing Cyclic Performance of Lithium–Aluminum Layered Double Hydroxides Type Adsorbents via Vanadium Anions Intercalation for Li <sup>+</sup> Extraction from Sulfate‐Type Brines Open
Owing to its excellent eco‐friendliness and facile water elution properties, aluminum‐based lithium adsorbents have attracted a surge of interest for selectively extracting Li + from Salt Lake brines, which account for more than 60% of the…
View article: A Comprehensive Review of Advances in Magnesium-Based Cementitious Materials: Hydration, Properties, and Applications in Soil Stabilization
A Comprehensive Review of Advances in Magnesium-Based Cementitious Materials: Hydration, Properties, and Applications in Soil Stabilization Open
This review provides a comprehensive overview of the advancements in magnesium-based cementitious materials (MBCMs), including magnesium oxychloride cementitious material (MOC), magnesium oxysulfate cementitious material (MOS), and magnesi…
View article: Progress of Research in Titanium-Based Lithium-Ion Sieves for the Extraction of Lithium from Salt Lake Brine
Progress of Research in Titanium-Based Lithium-Ion Sieves for the Extraction of Lithium from Salt Lake Brine Open
The lithium resource is a crucial national strategic asset, and China's salt lakes are abundant in lithium. Efficient extraction of lithium from these salt lakes holds immense significance. Among the various methods available for the extra…
View article: F-Doped Ni-Rich Layered Cathode Material with Improved Rate Performance for Lithium-Ion Batteries
F-Doped Ni-Rich Layered Cathode Material with Improved Rate Performance for Lithium-Ion Batteries Open
Ni-rich layered cathode materials for lithium-ion batteries have received widespread attention due to their large capacity and low cost; however, the structural stability of the material needs to be improved. Herein, F-doped and undoped ca…
View article: Synthesis of a fine LiNi<sub>0.88</sub>Co<sub>0.09</sub>Al<sub>0.03</sub>O<sub>2</sub> cathode material for lithium-ion batteries <i>via</i> a solvothermal route and its improved high-temperature cyclic performance
Synthesis of a fine LiNi<sub>0.88</sub>Co<sub>0.09</sub>Al<sub>0.03</sub>O<sub>2</sub> cathode material for lithium-ion batteries <i>via</i> a solvothermal route and its improved high-temperature cyclic performance Open
Nickel–Cobalt–Aluminum (NCA) cathode materials for lithium-ion batteries (LIBs) are conventionally synthesized by chemical co-precipitation.