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Water‐Soluble Inorganic Binders for Lithium‐Ion and Sodium‐Ion Batteries
Inorganic materials form an emerging class of water‐soluble binders for battery applications.
Their favourable physicochemical properties, such as intrinsic ionic conductivity, high …
Their favourable physicochemical properties, such as intrinsic ionic conductivity, high …
Single-Crystal P2–Na0.67Mn0.67Ni0.33O2 Cathode Material with Improved Cycling Stability for Sodium-Ion Batteries
Layered oxides constitute one of the most promising cathode materials classes for large-
scale sodium-ion batteries because of their high specific capacity, scalable synthesis, and …
scale sodium-ion batteries because of their high specific capacity, scalable synthesis, and …
Specific crystallographic site occupancy induced water stability: towards facilitating 'aqueous processing'of 'layered'Na-transition metal oxide cathodes for Na-ion …
Severe compositional/structural instability of 'layered'Na-transition metal (TM) oxide cathode
materials for Na-ion batteries upon exposure to air/water renders their handling/storage …
materials for Na-ion batteries upon exposure to air/water renders their handling/storage …
Synthesis of N‐Ethyl Carboxylic Acid Functionalized Polyethylenimine as Self‐Crosslinking Aqueous Binder for LiFePO4 Cathode of Lithium‐Ion Batteries
D Shao, J Huang, A Wu, Y Fang, X Li, L Hu… - Energy … - Wiley Online Library
N‐Ethyl carboxylic acid functionalized polyethyleneimine (N‐CEPEI) has been explored as
a novel water‐solution binder for LiFePO4 (LFP) cathodes, which is synthesized via Michael …
a novel water‐solution binder for LiFePO4 (LFP) cathodes, which is synthesized via Michael …