Effect of dedoped (insulating) polyaniline nanofibers on the ionic transport and interfacial stability of poly(vinylidene fluoride-hexafluoropropylene) based composite polymer electrolyte membranes

“…Polyaniline (PAni) was dispersed in P(VDF-HFP) nanofibers to improve the ion transport properties [238]. Fig.…”

“…Schematic representation of electrode/polymer electrolyte interfacial passivation layer a) without and b) with polyaniline nanofibers[238].…”

Polymer composites and blends for battery separators: State of the art, challenges and future trends

“…Polyaniline (PAni) was dispersed in P(VDF-HFP) nanofibers to improve the ion transport properties [238]. Fig.…”

“…Schematic representation of electrode/polymer electrolyte interfacial passivation layer a) without and b) with polyaniline nanofibers[238].…”

Polymer composites and blends for battery separators: State of the art, challenges and future trends

“…To the best of our knowledge, the interfacial stability of polymer/clay nanocomposite electrolytes is not yet reported in literature. However, the improvement of interfacial stability in nanocomposite polymer electrolytes due to the addition of nanosized ceramic fillers and fibers is widely reported [31][32][33][34], according to which the high surface area of nano-sized ceramic fillers form a barrier layer at the electrode, which effectively impedes the electrode-electrolyte reaction. This in turn reduces the passivation layer on the electrode leading to better interfacial stability between electrode and electrolyte.…”

Ionic transport studies in hyperbranched polyurethane/clay nanocomposite gel polymer electrolytes

“…To the best of our knowledge, the interfacial stability of polymer/clay nanocomposite electrolytes is not yet reported in literature. However, the improvement of interfacial stability in nanocomposite polymer electrolytes due to the addition of nanosized ceramic fillers and fibers is widely reported [32,[35][36][37], according to which the high surface area of nano-sized ceramic fillers form a barrier layer at the electrode, which effectively impedes the electrode-electrolyte reaction. This in turn reduces the passivation layer on the electrode leading to better interfacial stability between electrode and electrolyte.…”

Enhanced electrical and electrochemical properties of PMMA–clay nanocomposite gel polymer electrolytes