Cellulose, an abundant and eco-friendly polymer, is a promising raw material to be used for
preparing energy storage devices such as lithium-ion batteries (LIBs). Despite the …

The world is weakening because most energy sources currently in use are environmentally
hazardous. On the other hand, clean and alternative energy sources have the potential to …

Polyimide (PI) membranes with superior chemical resistance, insulation and self-
extinguishing are attracting numerous attentions as the separators of lithium-ion batteries …

Separator is a vital component of lithium-ion batteries (LIBs) due to its important roles in the
safety and electrochemical performance of the batteries. Herein, we reported a cellulose …

The membrane is one of the key inner parts of lithium-ion batteries, which determines the
interfacial structure and internal resistance, ultimately affecting the capacity, cycling, and …

Currently, the commercial polyolefin-based separators suffer from inferior electrolyte
wettability and poor thermal resistance, leading to unsatisfied electrochemical performance …

It is well established that paper-based separators display short-circuit risk in lithium-ion
batteries due to their intrinsic micron-sized pores. In this research, we have adjusted pore …

Commercial polyolefin separators suffer from poor electrolyte wettability and low thermal
stability, which give rise to unsatisfied electrochemical performance and severe safety …

Cellulose has been adopted to prepare gel poly electrolytes (GPEs) for lithium ion batteries
(LIBs). The abundant hydroxyl groups of the cellulose backbones endow GPEs with high …

Nanocellulose has been adopted to fabricate renewable and thermally stable separators for
lithium ion batteries (LIBs). However, the nanofibrils tend to form dense network because of …