Enhanced energy storage performance of polyethersulfone-based dielectric composite via regulating heat treatment and filling phase

“…4–7 Lithium-ion batteries have robust concerns regarding their high energy density, low power density and notable safety concerns. 8–11…”

Effect of electrolyte optimization on nitrogen-doped MXene (Ti₃C₂T_x) coupled with Cu–BTC MOF for a supercapattery and the hydrogen evolution reaction

“…4–7 Lithium-ion batteries have robust concerns regarding their high energy density, low power density and notable safety concerns. 8–11…”

Effect of electrolyte optimization on nitrogen-doped MXene (Ti₃C₂T_x) coupled with Cu–BTC MOF for a supercapattery and the hydrogen evolution reaction

“…The peaks located at 1320 cm −1 and 1153 cm −1 correspond to the asymmetric and symmetric stretching vibration of OSO bonds of PES, while the peak at 1100 cm −1 represents the –S– stretching vibration, and the peak at 715 cm −1 stands for the stretching vibration of the C–S bond. 22,23 Additionally, high-temperature FTIR spectroscopy was performed. The wave number range of 1700–4000 cm −1 in Fig.…”

Achieving synergistic improvement in dielectric and energy storage properties at high-temperature of all-organic composites via physical electrostatic effect

“…The combination of polymer-based electrolytes and ceramic-based electrolytes is a smart way to amplify each other's strength. [21][22][23][24] Wu et al composited LZP with PEO and found that the interface interaction between LZP and polymer increases the transference number of Li + and redistributes most of Li + into the disordered local environment, leading to an increase in the mobility number and ionic conductivity. At the same time, LZP can wet the Li metal and stabilize the Li metal/electrolyte interface through interfacial side reactions.…”

PEO/Li_1.25Al_0.25Zr_1.75(PO₄)₃ composite solid electrolytes for high-rate and ultra-stable all-solid-state lithium metal batteries with impregnated cathode modification