Columnar liquid-crystalline triazine-based dendrimer with carbon nanotube filler for efficient organic lithium-ion batteries

“…The reduction peak at 1.9 and 0.9 V can be attributed to the Li + binding with the nitrogen atoms and the cyano functional groups, respectively. 31,47,48 The rapid drop of current from 0.02 V could be ascribed to further Li + insertion in carbonaceous materials. In addition, three oxidation peaks can be identied at 0.13, 1.03, and 2.4 V on the anodic scan, indicating a successful de-lithiation process.…”

High-performance aramid electrodes for high-rate and long cycle-life organic Li-ion batteries

“…The reduction peak at 1.9 and 0.9 V can be attributed to the Li + binding with the nitrogen atoms and the cyano functional groups, respectively. 31,47,48 The rapid drop of current from 0.02 V could be ascribed to further Li + insertion in carbonaceous materials. In addition, three oxidation peaks can be identied at 0.13, 1.03, and 2.4 V on the anodic scan, indicating a successful de-lithiation process.…”

High-performance aramid electrodes for high-rate and long cycle-life organic Li-ion batteries

“…Due to their good ordering, this kind of dendrimer should show a good gas-detecting ability. Recently, a small amount of graphene was mixed with a 2D shape-persistent dendrimer, and a significant increase in the adsorption of Li ions in the solid state was discovered [ 62 ]. Therefore, a convenient application in the optimization of batteries can be anticipated.…”

Shape-Persistent Dendrimers

“…[24][25][26][27][28][29] In addition, the unique reaction mechanism and exible structure of organic compounds can avoid large structural changes and enhance the mobility of large-sized Zn ions, which is vital for the operation of high-performance AZIBs. 30 To date, many organic electrodes have been discovered, such as conductive polymers, organosulfur compounds, and nitroxide radical and carbonyl group-containing compounds. 27,31,32 In particular, carbonyl compounds have achieved signicant success as cathodes for rechargeable metal-ion batteries.…”

A covalent organic framework as a dual-active-center cathode for a high-performance aqueous zinc-ion battery