With the enormous development of the electric vehicle market, fast charging battery
technology is highly required. However, the slow kinetics and lithium plating under fast …

In comparison to inorganic electrode materials utilised in energy storage systems, organic
electrode materials possess several advantages, including the lightweight nature …

Owing to the shortcomings of traditional electrode materials in alkali metal-ion batteries
(AIBs), such as limited reversible specific capacity, low power density, and poor cycling …

The development of smartphones and electric cars calls for electrochemical energy storage
devices with higher capacities, faster charging rates, and improved safety. A key to …

Battery‐supercapacitor hybrid devices (BSHDs) are aimed to be competitive complements to
conventional batteries and supercapacitors by simultaneously achieving high energy …

Sustainable organic electrode materials, as promising alternatives to conventional inorganic
electrode materials for sodium‐ion batteries (SIBs), are still challenging to realize long …

Ionic conduction plays a critical role in the process of electrode reactions and the charge
transfer kinetics in a rechargeable battery. Covalent organic frameworks (COFs) have …

The poor conductivity of the pristine bulk covalent organic material is the main challenge for
its application in energy storage. The mechanism of symmetric alkynyl bonds (C≡ C) in …

Porous organic polymers (POPs), a versatile class of materials that possess many tunable
properties such as high chemical absorptivity and ionic conductivity, are emerging candidate …

Organic materials are promising for cation storage in calcium ion batteries (CIBs). However,
the high solubility of organic materials in an electrolyte and low electronic conductivity …